\639 V*^H&£v k:*--1 -,: ;'i '• . :«4; 4 *"«. *&8&>'. 1 THE LONDON DISSECTOR, OR GUIDE TO ANATOMY, FOR THE USE OF STUDENTS: COMPRISING A Description of the Muscles, Vessels, Nerves, Lymphatic! and Viscera of the Human Body, as they appear on Dissection; WITH DIRECTIONS FOR THEIR DEMONSTRATION. FROM THE FIRST AMERICAN EDITION. REVISED AND CORRECTED BY EDWARD J. CHAISTY, M. D. DEMONSTRATOR OF ANATOMY? iV 't1MF 1TKIVERSITY OF MARYLAND. .';■??' -*>-? BALTIMORE: JOHN MURPHY, PRINTER AND PUBLISHER, 146 MARKET STREET. CUSHING & BRO., NO. 206 MARKET STREET; JOHN CUSHING & CO. NO. 6 NORTH HOWARD STREET. PHILADELPHIA:—THOMAS, COWPERTHWAIT & CO. MDCCCXXXIX. n-, fib*, a/^- fga-7, r?o»3 Entered according to the Act of Congress, in the year eighteen hundred and thirty-nine, by John Murphy, in the Clerk's Office, of the District Court of Maryland. <&P PREFACE. In presenting the London Dissector, under its present form, to the American Student, it may be proper to remark, that I have been prompted by no feelings of vanity; no eagerness for authorship. I felt, even in my own period of study, the difficulty of procuring brief and satisfactory guides for the student of anatomy: I perceived with what reluctance he perused the larger works intended to direct him in his dissection; how rapidly he hurried over the lengthy description of the various parts, and I was led to believe, that a short and sufficiently extensive manual, would be welcomed as a desideratum by the young dissector. Believing, that with a few alterations and additions, the London Dissector might easily be transformed into a work of this description, I have been induced to undertake the task. /;ra Vlll PREFACE. It is but just, however, to acknowledge, that for these additions I have been indebted to authors of well known celebrity; that I have drawn freely from Bell's admirable treatise on Anatomy; and Shaw's excellent work on Dissection; and that should the present volume be still received as a work of merit, the praise must redound to the original author of the work, not to the compiler. His labor will be amply compensated, if it but facilitate the progress of the student, in the acquisition of anatomical knowledge. CONTENTS. PART I.-THE MUSCULAR SYSTEM. '^ Page. General Rules for Dissection,.....13 Chapter I.—Dissection of the Abdomen,.....15 Section I.—Muscles of the Abdomen,.....15 Sec. II.—Description of the Anatomy of the Parts connected with Hernia,..........23 Sec. III.—Dissection of the Cavity of the Abdomen, ... 39 Chap. II.—Dissection of the Perineum and Organs of Generation in the Male, . /........51 Chap. III.—Dissection of the Organs of Generation in the Female, 59 Chap. IV.—Dissection of the Thigh,.....66 Sec. I.— Of the Anterior Part of the Thigh, .... 66 Sec. II.—Of the Posterior Part of the Thigh, .... 72 Chap. V.—Dissection of the Leg and Foot, 78 Sec. I.—Of the Fore Part of the Leg and Foot, . ... 78 Sec. II.—Dissection of the Posterior Part of the Leg, . 84 Sec. III.—Dissection of the Sole of the Foot, . 8S Chap. VI.—Dissection of the Upper Part of the Body, . 93 Sec. I.— Of the External Parts of the Head, . . . ' . 93 Sec. II.—Of the Contents of the Cranium, or of the Brain and its Membranes,.........97 Chap. VII.—Dissection of the Anterior Part of the Neck, 115 Chap. VIII.—Dissection of the Muscles on the outside of the Thorax,..........122 X contents. Page, Of the Parts within the Thorax, ...... 124 Dissection of the Heart, when removed from the Body, . 128 Chap. IX.—Dissection of the Muscles of the Face, . . .131 Chap. X.—Dissection of the Throat,.....139 The Muscles situated about the entry of the Fauces, . 140 Muscles on the Back Part of the Pharynx, .142 Muscles of the Larynx,........143 Chap. XI.—Dissection of the Orbit of the Eye, . 146 Muscles situated within the Orbit,....._, . 146 Chap. XII.—Dissection of the Muscles on the Posterior Part of the Trunk and Neck,........149 Chap. XIII.—Dissection of the Muscles situated between the Ribs, and on the inner Surface of the Sternum, . . .162 Chap. XIV.—Dissection of the Muscles situated on the anterior part of the Neck, close to the Vertebra?, .... 164 Chap. XV.—Dissection of the Superior Extremity, . . 166 Sec. I.—Of the Shoulder and Arm, . v 166 Sec. II.—Dissection of the Fascia and Muscles situated on the Cubit or Fore Arm,........171 Sec. III.—Dissection of the Palm of the Hand, .... 182 PART II.— THE VASCULAR AND NERVOUS SYSTEMS; 189 Of the Vessels and Nerves situated behind the Peritoneum, . 190 Of the Vessels and Nerves contained within the Pelvis, . 197 Of the Vessels and Nerves on the Fore Part and Inside of the Thigh,..........200 Of the Vessels and Nerves on the Posterior part of the Thigh, 203 Of the Vessels and Nerves situated on the Fore part of the Leg and Foot,.........207 Vessels and Nerves of the Posterior part of the Leg, 209 CONTENTS. XI Page. Of the Vessels of the Brain, . .......212 Of the Vessels and Nerves seen in the Dissection of the Neck, 213 The course of the Subclavian Artery and its Branches, on each side,..........222 The course of the Brachial Plexus of Nerves, . . .224 The Dissection of the Axilla, or Arm-Pit, .... 224 Dissection of the Posterior Mediastinum, and of the Nerves and Vessels which have their course through the Thorax, . 228 Branches of the Intercostal in the Thorax, .... 229 Of the Vessels and Nerves of the Face,.....233 Of the Vessels and Nerves met with in the Orbit of the Eye, 238 The Dissection of the Cutaneous Vessels and Nerves of the Shoulder and Arm,........240 Of the Vessels and Nerves of the Superior Extremity, . . 243 The Method of Injecting the Arteries,.....252 The Method of Injecting the Heart,.....253 The Lymphatic or Absorbent System,.....256 Of the course of the Lymphatics,......257 Directions for making Lymphatic Preparations, . . 270 COMPENDIUM OF PRACTICAL ANATOMY. GENERAL RULES FOR DISSECTION. Dexterity in the manual operation of dissection can be acquired only by practice; the observance, however, of certain general rules will facilitate the labor of the student. 1. The position of the hand in dissecting should be the same as in writing or drawing; and the knife, held, like the pen or pencil, by the thumb and the first two fingers, should be moved by means of them only; the hand resting firmly on the two other fingers bent inwards, as in writing, and on the wrist. The instrument can thus be guided with much more steadiness and precision, than when moved by means of the wrist, elbow, or shoulder. 2. No more of the integuments should at any time be removed, than is necessary for the present dissection, as exposure to the air renders the parts dry and indistinct. 3. In dissecting muscular parts, the muscles should be extended; the cellular membrane which connects them to the integuments should be placed on the stretch, and entirely removed with the skin; the knife should be kept close to the muscles, and carried steadily in the direction of their fibres, separating a fasciculus at each stroke:—thus the exposed surface will appear clean, and the course of the fibres distinct. 2 14 GENERAL RULES TOR DISSECTION. 4. When small vessels are are to be demonstrated, another method is to be followed; the skin only must be removed, and the cellular membrane cautiously dissected from the vessels. 5. During dissection, every little operation should be practised, which can give the dexterity of hand so essential to the surgeon: such as the use of the catheter and probang, the introduction of a probe through the nose into the Eustachian tube, or nasal duct, and the cutting down to the various arteries which may become the object of surgical operations: as the external iliac, femoral, anterior and posterior tibial, brachial, radial, and ulnar, &c. The grand object of the surgical student is to acquire a knowledge of the relative situation of parts. This should be kept in view in all his anatomical labors. Hence, when he is dissecting the muscles, he should carefully expose the chief blood-vessels and nerves, and attentively consider their position with regard to each other, and to the surrounding parts. The smaller arteries and veins, and the mi- nute nervous ramifications, will be more advantage- ously studied on subjects devoted to those purposes, and prepared by means of injection, immersion in spirits of wine, &c. The reader will observe, that, in general, the mus- cles of one side of the body only are described, because all the muscles of the body have correspondent ones on the opposite side, with a few exceptions, which are pointed out. The Bursae Mucosae met with in the dissection of the muscles are not regularly enumerated; but it is to be understood, that wherever tendons are des- cribed as rubbing on bones, muscles, or other ten- dons, a sac is formed by the surrounding cellular membrane, secreting synovia, to lubricate the parts in motion. CHAPTER I. DISSECTION OF THE ABDOMEN. SECTION I. Muscles of the abdomen, and the parts connected with them in dissection. To display these muscles which are ten in number, five on each side, an incision should be made through the integuments, from the sternum to the os pubis; this should be crossed by another passing immedi- ately below the umbilicus: dissect off the flaps; and you will expose, 1. The Obliq.uus Descendens Externus.— This muscle is quite superficial, and covers the whole of the anterior part of the abdomen. The muscular part is closely covered by a thin expansion of cel- lular substance, which should be removed along with the integuments. Origin: By eight angular fleshy slips, from the lower edges and external surfaces of the eight in- ferior ribs, at a little distance from their cartilages; the five superior slips unite on the ribs by digitations with the serratus major anticus; and the three inferior are connected with the attachments which the latis- simus dorsi has to the ribs. Often there are only seven portions. To gain a complete view of this muscle, the neighboring portions of the pectoralis major, serratus anticus, and latissimus dorsi should be dissected with it. 16 LONDON DISSECTOR, OR The muscular fibres proceed obliquely downwards and forwards, and about the middle of the side of the belly terminate abruptly in a thin broad tendon, which is continued in the same direction over all the forepart of the belly. Here it covers the anterior surface of the rectus abdominis; it is very thin at the upper part, where the rectus lies on the cartilages of the ribs, and is often removed by the beginner, unless he is very cautious. Insertion: Tendinous and fleshy, into two anterior thirds of the outer edge of the spine of the "os ilium; tendinous, into the whole length of Poupart's liga- ment, the os pubis, the ensiform cartilage, and the whole length of the linea alba. This muscle called also the external oblique, the descending oblique, or the obliquus major, aids in respiration, in flexing the trunk forwards, in raising the pelvis obliquely when the ribs are fixed; in sup- porting the abdominal viscera, and in the expulsion of the urine, the faeces, and the foetus. In the examination of this muscle, the following points should be observed: The Linea Alba, a white line running along the middle of the abdomen, from the cartilago ensiformis to the os pubis; formed by the tendinous fibres of the two obliqui and the transversalis muscles, interlacing with their fellows on the opposite side. Linea Semilunaris, a semi-circular white line, running from the os pubis obliquely upwards over the side of the abdomen, at the distance of about four inches from the linea alba; formed by the tendons of the two oblique and transverse muscles uniting at the edge of the rectus, before they separate to form its sheath, Lineje Transversa, three or four white lines crossing from the linea semilunaris to the linea alba; formed by the tendinous intersections of the recti shining through the strong sheath which covers them; GUIDE TO ANATOMY. 17 These are not evident in all subjects in this stage of the dissection. Umbilicus, or Navel. This, which before the in- teguments were removed, was a depression, appears now a prominence; it consists of condensed cellular membrane:—In the foetus, it was a foramen which gave passage to the two umbilical arteries, the um- bilical vein, and the urachus. Annulus Abdominalis, or Ring, an oblique slit or opening just above the angle of the pubis; formed by the tendon of the external oblique, divided into two portions called the pillars or columns of the ring, one of which (the superior or internal) is attached to the symphysis, and the other (the inferior or external) to the angle of the pubis; and allowing a passage to the spermatic cord in the male, and the ligamentum teres of the uterus in the female. This slit is, very improperly named a ring, since its figure is triangular, the pubis is the base, the two columns are the two sides of the triangle. The apex has, indeed, a rounded figure in consequence of some transverse fibres, which connect the two columns where they first separate; and it points obliquely upwards and outwards. It belongs to the external oblique alone, there being no such opening, either in the internal oblique, or the transversalis; it is much smaller in the female than in the male. Ligamentum Inguinale, seu Poupartii, seu Fal- lopii, a strong ligament, stretching from the anterior superior spinous process of the os ilium, to be fixed to the spine of the os pubis. This in truth is merely the lower edge of the tendon of the obliquus externus abdominis, although, in compliance with received no- tions, I have described it as a separate ligament. It covers the femoral vessels and nerves, and certain muscles, and has lately been often described under the name of the Crural Arch. It is also the same 2* 18 LONDON DISSECTOR, OR part as the posterior column of the abdominal ring. The student should not be confused by this multitude of names; he should remember that the crural arch, the inferior or outer column of the abdominal ring, Pouparfs or the inguinal ligament, are so many names applied to the inferior border of the tendon of the external oblique. The student should now dissect the parts in the groin, and examine the situation of the great inguinal vessels. In removing the skin from the groin, he jvill not find a strong regular fascia, as on the outer part of the thigh, but a confused and irregular aponeurosis coming off from the abdomen, and going down upon the thigh; strengthened by the intermixture of con- densed cellular substance, and very loose above the great vessels. Immediately under the skin, and above this apo- neurosis, you perceive a congeries of lymphatic glands, and sometimes the lymphatic vessels them- selves can be distinguished by their semi-trajisparent coats, and knotted appearance. Also, immediately under the skin, you will find the Vena Saphena running from below upwards, at first lying on the fascia, and then gradually sinking through it to join the femoral vein, about an inch below Poupart's liga- ment. On removing this irregular fascia, we come down upon the great vessels, which lie deeply imbedded in cellular substance, and are closely invested and sup- ported by a firm cellular sheath, or fascia. This should all be cautiously removed with the scissors together with some lymphatic glands imbedded in the fat. Observe the order in which the parts are situ- uated under the crural arch:—that the great external iliac vein lies next to the pubis;—that the external iliac artery is on the outside of this, in close con- GUIDE TO ANATOMY. 19 tact with it;—that the anterior crural nerve is half an inch exterior to the artery, and lies on the iliacus internus;—and that the outer half of the space left under the crural arch is filled by the psoas magnus and iliacus internus muscles. Observe how the cru- ral arch is stretched over the parts just enumerated; how it forms a thin, but firm, sharp, and crescent- shaped edge towards the pubis (constituting the seat of stricture in the femoral hernia, and sometimes called Gimbernat'ls ligament?)—how the artery is placed in.relation to the angle of the pubis and spine of the ilium, passing under the middle of the arch. The dissection of the other abdominal muscles may now be continued. Dissect off the serrated origin of the external ob- lique from the ribs, and from the spine of the os ilium, and detach it from the obliquus internus, which lies below it, and which is connected to it by loose cellular substance, and by small vessels. Continue to separate the two muscles, till you find their tendons firmly at- tached, i. e. a little way beyond the linea semilunaris. Separate the tendon from the crural arch to within half an inch of the abdominal ring. 2. Obliquus Ascendens Internus.—It is covered anteriorly by the obliquus descendens externus, and posteriorly by the latissimus dorsi. In its action it assists the obliquus externus; bending the trunk, how- ever, in the reverse direction, so that this muscle on one side co-operates with the obliquus externus of the opposite. Origin: By short tendinous fibres, which soon become fleshy, from the whole length of the spine of the os ilium, and from the fascia lumborum;* also fleshy from the outer half of Poupart's ligament. * A tendinous fascia common to this and certain muscles of the back, \* the serratus posticus inferior. 20 LONDON DISSECTOR, OR The fibres run in a radiated direction; the upper fibres ascend towards the sternum; the central pass more transversely across the abdomen; and the infe- rior descend towards the pubis. The fleshy belly of this muscle extends beyond that of the external oblique, before it terminates in a flat tendon. Inserted into the cartilages of the six ,or seven lower ribs,—fleshy into the three inferior, and, by a tendinous expansion, which is extremely thin, resem- bling cellular membrane, into the four superior, and also into the ensiform cartilage. The sheet of tendon in which the fleshy belly ends, is continued, single and undivided, into the linea semilunaris; there it splits into two parts, one passing in front and the other behind the rectus muscle, and finally unite in the linea alba; but below the umbilicus the whole tendon of the internal oblique passes along with that of the external oblique before the rectus. The in- ferior edge of the muscle extends in a nearly straight direction over the spermatic chord to be fixed by a tendinous attachment to the angle of the pubis. It is sometimes called the obliquus internus abdo- minis;—the obliquus ascendens;—or obliquus minor. About the middle of Poupart's ligament, a delicate fasciculus of fibres is sent off from this muscle over the spermatic cord, as it passes under its edge in its way to the ring. This is named the Cremaster, and is continued down on the cord, till it is insensibly lost on the tunica vaginalis testis; it will be seen in the dissection of the scrotum: Its use is to suspend, draw up, and compress the testicle. We must now dissect the attachments of the inter- nal oblique, continuing our dissection from behind forwards, and separate it from the transversalis ab- dominis, which lies beneath it. This separation may be continued till the tendons of the two muscles become inseparable. As this muscle lies closely GUIDE TO ANATOMY. 21 upon the transversalis, caution is required to avoid detaching both muscles together. 3. Transversalis Abdominis lies beneath the last muscle, and reposes upon the peritoneum.— Arises, tendinous, from the fascia lumborum, and back part of the spine of the os ilium; fleshy from all the remaining part of the spine of the ilium, and from the inner surface of Poupart's ligament; and fleshy from the inner surface of the cartilages of the seven lower ribs, where its fibres meet those of the diaphragm. The fleshy fibres proceed transversely, and end in a flat sheet of tendon, which passes with the pos- terior layer of the internal oblique behind the rectus, and is inserted into the ensiform cartilage, and into the whole length of the linea alba; midway, however, between the umbilicus and os pubis, a slit or fissure is formed in this tendon, through which the rectus abdominis passes; and the remainder of the tendon passes before the rectus, to be inserted into the lower part of the linea alba, and the os pubis. Where the transversalis is detached from its ori- gins, and turned back towards the linea semilunaris, the peritoneum is laid bare, except in the neighbor- hood of the crural arch, where it is covered by a thin fascia arising from Poupart's ligament, and con- tinued upwards between the peritoneum and transver- salis muscle, until it is gradually lost. This is named by Mr. Cooper, its discoverer, the fascia transversalis; it prevents the bowels from being protruded under the inferior margins of the obliquus internus and trans- versalis muscles. It is perforated about the middle between the ilium and pubes, by an opening for the passage of the spermatic chord, which then goes obliquely downwards, inwards, and forwards to the ring of the external oblique. Thus the abdominal ring is a canal, having an upper or internal opening, 22 LONDON DISSECTOR, OR formed in the fascia transversalis, and a lower or external one in the tendon of the obliquus externus. The next muscle to be described is the 4. Rectus Abdominis.—Arises, by a flat tendon, from the forepart of the os pubis; as it ascends, its fleshy belly becomes broader and thinner. Inserted, by a thin fleshy expansion, into the ensi- form cartilage, and the cartilages of the three inferior true ribs. Situation: This pair of muscles is situated on each side of the linea alba, enclosed in a sheath formed by the tendons of the oblique and transversalis muscles. Thus the rectus has in front of it the whole tendon of the external oblique, and half of the internal; and behind it, the remaining half of the tendon of the internal oblique and the entire tendon of the transversalis. The muscle is generally divided by- three tendinous intersections; the first at the umbili- cus, the second where it runs over the cartilage of the seventh rib, and the third between these; and there is commonly a half intersection below the um- bilicus. These intersections constitute the linea transversa. At the os pubis, on each side of the linea alba, and inclosed in the lower part of the sheath of the rectus, is sometimes found a small muscle, named 5. Pyramidalis.— Origin: Tendinous and fleshy, of the breadth of an inch from the os pubis, anterior to the origin of the rectus. Insertion: By an acute termination, near half-way between the os pubis and umbilicus, into the linea alba and inner edge of the rectus muscle. guide to anatomy. 23 SECTION II. Anatomy of Hernia* It is of considerable importance in this dissection to have a good body. That of a strong muscular man is not so well adapted for the display of the anatomy of the groin, as that of a person who has died of a lingering disease. The body of a male is the best for the dissection of the inguinal canal, and that of a female for the parts connected with femoral hernia. The subject is to be so placed that the ab- dominal muscles may be made tense: this is most conveniently done by placing a block of wood under the loins. To put the fasciae of the thigh upon the stretch, one leg ought to hang over the side of the table. The dissection of the upper part of the exter- nal oblique is to be made according to the general rule of removing all the cellular membrane from the muscular fibre; but this plan must not be followed lower down than to a line drawn from the one ante- rior superior spinous process of the ilium to the other; here, the skin only should be raised; it may be carried down to three fingers' breadth below the line of Poupart's ligament.f By this method we shall leave upon the groin a quantity of condensed cellular mem- brane, between the layers of which is the arteria epigastrica superficialis; this membrane may be traced from that which covers the pectoralis muscle and the upper part of the muscles of the abdomen; it has generally received the name of fascia superficialis communis, because it is of equal importance to the * Shaw's Manual. t Tendon of the external oblique; Fallopian or Poupart's ligament; crural arch; ligament of the thigh; femoral ligament. 24 LONDON DISSECTOR, OR inguinal and femoral hernia. This fascia* is now to be dissected from the tendon of the external oblique. It has a very slight attachment to the expanded tendon, and the union between it and the spermatic cord is so slight, that the handle of the knife can be pushed between them as far down as to the bottom of the scrotum. The attachment between the iliacf portion of Poupart's ligament and this fascia is very strong; but the connection between the pubic portion of the ligament and the fascia is so slight, that the handle of the knife is sufficient to destroy it. We can separate the fascia with great ease for about an inch below the edge of this part of the ligament, but we cannot lift it farther without using the knife; for the fascia becomes intimately united to the inguinal glands and to the fascia lata. Although we have raised this fascia, the accurately defined pillars of the abdominal ring, which are generally represented in plates as the first stage of the dissection, will not yet be visible; but farther dissection will be required, to show them; for a fascia, which shall be presently described, covers the ring, so that only a prominence is seen, and which we shall find to be formed by the spermatic cord. It is of great importance to make this dissection in the manner that has been pointed out, because much of the pathology of femoral hernia may be explained by it. By looking narrowly into the depression which has been formed by raising the fascia superfi- cialis, we may see lymphatic vessels passing across from the glands to perforate a membrane, which, ♦Fascia superficialis of Mr. Cooper; described by Camper and many others as only a membranous layer; by Scarpa, as a prolongation of the fascia lata. In the scrotum of the fcet'us it forms the external lamina of the peritoneum of Langenbeck. I The terms iliac and pubic are better than external and internal. The length of the Poupart ligament may be divided into three portions- two of the thirds are called iliac, the other pubic, being that which is nearest to the pubes. GUIDE to anatomy. 25 though it appears to be a continuation of the lower edge of Poupart's ligament, has been, by some, de- scribed as a distinct fascia, under the name of cribri- form, in consequence of the appearance which it pre- sents when the lymphatics are cut short. Occasionally a small gland is projected through the membrane. The general course of the femoral hernia is either to displace this gland, or to break through the meshes of the net-work; and then it will pass into the hollow which we have just described. The natural course of the hernia would be, to descend upon the thigh; but it is prevented from passing farther down, than about an inch, on account of the close connection which exists between the fascia superficialis and the glands of the groin; but when the hernia increases in size, as it is prevented from descending upon the thigh, it turns up and breaks through the slight connection which there is between the pubic part of the liga- ment and the fascia superficialis, and thus takes the place of an inguinal hernia. This explains to us that the acute angle made in the gut is the principal cause of stricture in femoral hernia; and from the knowledge of this, we deduce principles upon which we must proceed to attempt the reduction of femoral hernia, when so situated. We must endeavour to bring the base of the sac to a straight line with the neck; and to succeed in doing this, we must first push the tumor downwards. It has occasionally happened that a femoral hernia has passed up before the surgeon had finished the operation. We have heard the surgeon blamed for operating in such a case. It has been said, that the gut going up before the stricture was cut, proved that there was no necessity for the operation; but instead of joining in the censure, we think that it would be even advisable, in some cases, to cut through the fascia superficialis, so as to allow the sac to come to 3 26 LONDON DISSECTOR, OR a straight line, rather than to persevere long in the use of the taxis. All who have seen many cases of femoral hernia must allow, that a-cut through the skin and fascia, in an early stage, in many cases, would not be so dangerous as a protracted attempt to reduce the gut by the taxis. We have further to consider, that if it be not possible to reduce a hernia, after having cut through the fascia superficialis, that it never would have been reduced by the taxis; in that case all the steps of the operation must be performed. We now return to the anatomy of the inguinal hernia. If we pull the spermatic cord towards the scrotum, we shall see a thin fascia passing off from the tendon of the external oblique and attached to the cord. It has been called fascia propria. It is very strong in cases of old hernia; but even in the natural state of the parts, it is so distinct that it obscures the margins of the ring, (a) By cutting this thin fascia where it is connected with the cord, and by letting go the cord, the upper part of the pillars of the ring will be distinctly shown; but to make the opening of the ring quite apparent, we must remove the loose fat with the forceps and scissors from the lower part of the cord; we shall then have such a view as is given in plates as the first stage of the dissection. This opening has been called a ring* but it might with more reason be described as a triangle, the base of which is the os pubis, and the apex the splitting of the (a) While the fascia superficialis was overlooked; Camper described a covering to the cremaster muscle, extended from the edges of the external abdominal ring. This, however, has since been traced in con- tinuation with the fascia superficialis; is a part of that fascia; and covers the cremaster as the extended aponeurosis does the other superficial muscles of the body. I would rather retain the name of Camper's fascia, to this slip of the superficial fascia; then call it fascia propria; lest it might be confouuded with the fascia propria of a femoral hernia, that is derived from the cribriform portion of the crural sheath. * Inguinal ring; ring of the external oblique; or external abdominal ring. The anatomy of the canal is most accurately described in the folio edition of Mr. Charles Bell's Dissections, published in 1799. GUIDE TO ANATOMY. 27 tendinous fibres of the external oblique, and which is rounded off by a set of cross fibres. The superior side, or pillar, is simply inserted into the symphysis pubis; but in the attachment and form of the lower pillar there is a provision to prevent the compression of the spermatic cord during the contraction of the muscles, and it is thus:—the inferior pillar is formed by the pubic extremity of Poupart's ligament, which is not a rounded tendon that, viewing it on the out- side, we should expect it to be, but it is so formed, that part of it passes onwards to be attached to the linea ileopectinea by a flat broad horizontal tendon, while its more external part is inserted into the tuber- cle of the pubes; so that by this form of insertion there is a groove made for the lodgment of the sper- matic cord. The tendon of the external oblique is now to be cut through in two directions; one in a line drawn from the superior anterior spinous process of the ilium to the linea alba, and the other in the linea alba to the pubes. The tendon of the external oblique is to be carefully separated from the internal oblique, and is to be fastened by a hook to the fore part of the thigh. This will give us a view of a great part of the ingui- nal canal. The cord will be seen lying under the lower margin of the internal oblique, and so connect- ed by cellular membrane to the edge of the muscle, that it is difficult for a student in his first dissection to tell what is muscle and what is cord. This is in a great measure owing to the cremaster muscle, for it certainly varies considerably in the manner in which it takes its origin; the view may be made more dis- tinct by pulling the cord in a direction towards the scrotum, and taking off the cellular membrane from it and from the margin of the internal oblique. By doing so, we shall see that the internal oblique is not attached to the whole extent of Poupart's ligament, but 28 LONDON DISSECTOR, OR that, at two inches and a half from the symphysis pubis, its attachment to the ligament ceases; it then passes in the form of an arch, to the tubercle,* and to the linea ileo-pectineaf of the os pubis, so as to assist in closing the space behind the external ring. At the termination of the connection of the internal oblique to Poupart's ligament, the fibres which form the cre- master muscle come off; but as these fibres occasion- ally arise from Poupart's ligament, the cord some- times appears to perforate the internal oblique^ but in the greater number of cases, it is sufficiently clear that the cord passes under the internal oblique, not through it. In this part of the dissection we may observe a nerve running through the internal oblique to pass on the cord,—it is the spermaticus superficialis. The next stage of the dissection is to show the rela- tion of the transversalis to the cord. It will be very difficult to raise the internal oblique from the trans- versalis, if we commence the separation at the lower edge of the muscle; but by cutting through those fibres of the internal oblique, which are connected with the superior anterior spinous process of the ilium, we shall find some cellular membrane, and a branch of the artery called circumflexa ilii, lying upon the transversalis muscle, which will mark the line in which we are to dissect, so as to raise the internal * Spine of the os pubis; tuberculum spinosum; tuberosity of the pubes. ■\ Linea ileo-pectinea; linea innominata, continuous with the crista. j M. Cloquet describes the cremaster as formed by some fibres of the obliquus internus, which are pulled down by the testicle and guberna- culum, during the descent. He says that these fibres have two distinct attachments, one to the belly of the obliquus internus, and the other to the os pubis; so that each fibre forms a loop (des anses,) similar to extensible cords, which, when fixed at their two extremities, are drawn down in the middle. He also says that the testicle occasionally passes through the substance of the internal oblique, and then, the same appearance of fibres is found both before and behind the testicle; and that an inguinal hernia in a female frequently pushes down some of the fibres of the internal oblique before it, so as to form "un muscle cremas- ter accidentel." GUIDE TO ANATOMY. 29 oblique from the transversalis. The internal oblique is to4>e separated from the transversalis, and from its connection with Poupart's ligament, as far as the origin of the cremaster, and it is then to be turned over towards the linea alba. The whole of the mar- gin of the transversalis will now be seen, and we may observe that its relation to the cord is very nearly the same as that of the internal oblique; indeed, the tendons of the two muscles are so closely connected with each other, that it is almost impossible to sepa- rate them. It will be also apparent that the united tendons of these muscles, by their insertion into the linea ileo-pectinea, form the grand protection against hernia taking place through the external abdominal ring; but when this part is weak, in consequence of the deficiency of the tendons, that hernia which is called direct, or ventro inguinal, may take place. The muscular fibres of the transversalis are now to be very carefully detached from Poupart's ligament, and then they are to be scraped, not cut, from the layer of condensed cellular membrane, which is called the fascia transversalis.* We have seen the cord pass through the external oblique, and under the margins of the internal oblique and transversalis,—and we should now see the inter- nal ring, described by Mr. Cooper; but this ring must be made. When we pull the cord towards the groin, we see part of the cellular membrane which lies under the transversalis muscle passing down upon it in a conical form. If we cut this membrane from the cord, and push it up, and then let the cord go, there will be a hole, formed in the shape of a ring, but which, on its iliac side only, has a distinct margin, for on its pubic side there is only the cellular membrane * Fascia transversalis, of Mr. Cooper; fascia longitudinalis, or reflexa, of M. Cloquet; condensed cellular membrane between the peritoneum and transversalis muscle, of manv authors. 3* 30 LONDON DISSECTOR, OR surrounding the epigastric artery and veins. We may observe also, that the cord at this point has lost its rounded form—that the vessels are not bound together, as they are at the external ring, but that the component parts, separating from each other, give the cord a flattened form. Having now made an internal ring,(a) we should attend to the situation of the epigastric artery. It generally arises from the pubic side of the external iliac artery, just before it passes under Poupart's ligament. It will be found to descend a little, and then to proceed upwards towards the rectus, passing upon the pubic edge of the sper- matic cord, and between the fascia transversalis and the peritoneum; it then enters the substance of the rectus, about midway between the pubes and umbili- cus. As this artery is always on the pubic side of the spermatic cord, it follows, that when the inguinal hernia passes along the spermatic passage, (which it does in nine out of ten cases,) the epigastric artery will be on the pubic side of the hernia; but in the direct or ventro inguinal hernia, the artery will be on the iliac side. Let us now trace the course of a common hernia to the scrotum, and show what coverings it may have, and what are the probable causes of stricture. The muscles and the peritoneum may be cut through in the usual way of exposing the viscera, and the flap held out so that the inside of the peritoneum, and the depression which is found at the part where the cord passes into the canal, may be seen. In the greater proportion of cases, it is at this point that hernia takes place. Having laid down the transver- salis and internal oblique again in their natural situa- (o) This opening is not the creature of the knife, but exists before dissection has commenced, as perfectly as that on the upper part of the cone of a funnel, by which the pipe is connected with the body of the article. GUIDE TO ANATOMY. 31 tions, if we push the finger from within downwards into the depression of the peritoneum, we shall exhibit in appearance the first stage of the descent of a hernia. The finger is as the sac would be, above the cord, and on the iliac side of the epigastric artery: by pressing forward the finger, and through the peritoneum, it will appear under the margins of the transversalis and internal oblique; and if pushed farther, it will pass through the external ring. A hernia lying at this point, would be called inguinal hernia; but if it were to descend as far as into the scrotum, it Avould be called scrotal hernia. This is the common course of an inguinal hernia, but its rela- tion to the cord occasionally varies. When we look to the flattened and dispersed state of the cord at its upper part, we can understand how it may be split by the descent of a herniary tumor. In such a case, the vas deferens is sometimes found on the anterior part, and the vessels behind; but the vessels are more frequently on the fore part of the sac. We may now show what coverings the sac of a hernia would receive in its passage to the scrotum. In the common inguinal hernia, the peritoneum pushes before it, that cellular membrane which has been called part of the transversalis fascia, and which we showed must be separated from the cord before the internal ring can be made; this, when condensed, forms the innermost covering of the sac. The hernia then passes under the transversalis and internal oblique, and as the cremaster muscle runs from the internal oblique to the cord, it follows, that if the hernia lies above the cord, the sac must be between the cremaster and the cord; the fibres of the cremas- ter which lie above the sac will then be separated, by it, from each other, so that the cellular membrane which connects the scattered fibres, will form that which is called the cremastic or spermatic fascia. 32 LONDON DISSECTOR, OR The hernia then passes through the external ring. In the early part of the dissection, there was a mem- brane shown passing from the margins of the ring to the cord, so as to make the ring indistinct; this mem- brane, which is sometimes called fascia propria, must also form one of the coverings. The hernia may now either lie in the groin, or pass into the scrotum, and in either case it will be covered by the condensed cellular membrane, called fascia superficialis. If a patient had worn a truss for some time, all these fasciae might be distinctly seen in an operation; but it is of more importance to recollect, that the peritoneum, which forms the sac, and which, in its natural state, is very thin, would be found very much thickened, and particularly at the neck of the sac; indeed it is occasionally so much thickened, that it may be separated into a dozen layers. But if it were necessary to perform an operation for a hernia which had come down only a few hours before,—after having cut through the skin and fat, instead of finding distinct fasciae, such as have been described, only a little cellular membrane would be seen covering the sac, and the sac itself would be so thin and transpa- rent, that the color of the gut may be seen shining through it. The anatomy of the fasciae in congenital hernia is much the same; but the sac which is formed by the tunica vaginalis, is generally thin at the lower part, but very strong at the neck. Before describing what are the probable causes of stricture, there are some circumstances to be recol- lected. To produce strangulation, the gut must be compressed in the whole circle; strangulation cannot be produced by the muscular fibres which stretch over the gut, for they relax occasionally; as, for example, when a patient faints. The hole through which the gut is pushed is passive; its diameter is GUIDE TO ANATOMY. 33 never diminished, but the protruded gut swells, and is increased in size. The most common seat of stricture in inguinal hernia is the external ring; for though we do not see the ring until we have dissected the parts, still we can feel it, even before the skin is removed, by pushing the finger up along the cord. If the sac has been opened, if the external ring has been cut, and the stricture still continues, what is the cause of stricture? It cannot be produced by the margins of the internal oblique or transversalis muscles, for they will relax. Since we are told by high authority, that the stricture, in such a case, is caused by the internal ring, we cannot deny that it may occasionally happen; but we should be more inclined to say, that the stricture is not caused by the internal ring itself, but by the neck of the sac, which is situated at thaf part. Our reasons for supposing so, are the following:—In the dissection of the parts, in their natural or ruptured state, there is no internal ring, until it is made by pushing up the cellular membrane which surrounds the cord; and even then, if we try its strength, we find it very weak, and particularly on the inner part; while the neck of the sac is generally so strong, that we might as easily break a circle of whip cord as tear it. The external ring, and the neck of the sac, may be considered as the most common seats of stricture; but there are va- rieties, into the consideration of which it would be impossible to enter at present. There is a species of inguinal hernia called the direct or ventro inginnal, which has been already men- tioned as having the epigastric artery on its pubic side; (a) in several other respects it differs from the common inguinal hernia. It does not come along the inguinal canal, but passes directly through the exter- (a) Certainly the iliac side! 34 LONDON DISSECTOR, OR nal ring; it is not covered by the cremaster or any part of the fascia transversalis, but only by the fascia propria and superficialis.(«) The peritoneum is as liable to be thickened in this species as in the other. We have seen in operation the sac a quarter of an inch in thickness. This kind of hernia does not take place often, but, in proportion to our limited oppor- tunities, it has occurred to us more frequently than it appears to have done to Mr. Cooper. The dissection of the parts connected with femoral hernia may now be made. We have already de- scribed the first steps of the dissection. It is abso- lutely necessary that the limbs be kept forcibly separated from each other, and that the handle of the knife only, should be used in removing the glands, as we are very apt to destroy some of the connections of the fasciae, if we use a sharp knife while the limbs are lying straight. When the glands are removed, we may see the manner in which the fascia lata is connected to the Poupart ligament; how it dips down towards the femoral vessels, and how it mounts up again to cover the pectinalis muscle. The part of the fascia lata which dips down towards the femoral vessels, will have a crescentic form; but this will not be so distinct as is represented in many plates, parti- cularly in those of Mr. Hey, unless we cut through the connection which there is between the fascia lata and the sheath of the vessels; but by doing so, we would destroy the natural view. This part generally receives the name of superficial crescentic arch;* for (a) By this expression, the student would be led to expect that a scrotal henna had two coverings from fasci* above the remaster- while Camper's fascia ,s the only one lying between that muscle and the common integuments. musiae ana nf*^6^0,?1 ligunent' °/„Mr- Hey; falciform process of the fascia lata of Mr Allan Burns. All these parts are accurately described tnthJ foho edition of Mr. Charles Bell's Dissections, pub!ifhedTn 1799 ut did not give them names. F lw m 1 'y9- He GUIDE TO ANATOMY. 35 we shall afterwards see a deep one. It is in this stage of the dissection that we can understand how some surgeons have described the femoral hernia as situated under the fascia lata, while others have described it as lying above the same fascia; in truth, the femoral hernia is above one portion of the fascia lata, and below another, for it is under this part which is called crescentic arch, and above the portion which covers the pectineal muscle. If we pull away the lymphatics which are passing from the inguinal glands to those of the pelvis, we shall see a number of holes in a membrane which connects the lower edge of the Poupart ligament to the pectineal portion of the fascia lata: this part we have already noticed.. Though it will not appear as a distinct fascia in our dissection, still it has received the name of fascia cribriformis from Mr. Cooper; and as an addition to our stock of names, we have, from M. Cloquet, septum crurale. It must be very care- fully examined, for it is the only weak part of the boundary between the pelvis and the thigh; for, on the iliac side of this fascia cribriformis, Poupart's ligament is firmly attached to the fascia lata, and on its pubic side there is a firm union between the edge of the third insertion of the Poupart ligament and the portion of fascia lata which covers the pectinalis muscle.* We now proceed to the examination of the internal view. The flap of the abdominal muscles is to be held up, and the peritoneum is to be carefully torn from it; by which a useful view will be given, without our using the knife at all. At about an inch from the pubes, we see a depression, bounded by the cribriform fascia, through which the lymphatics pass into the * While at this stage of the dissection the leg should be moved in different directions, to show the effect of the various positions in relax- ing or tightening the fasciae. 36 LONDON DISSECTOR, OR pelvis from the thigh. The part of Poupart's liga- ment which is on the iliac side of this cavity, is very firmly connected with the fascia which covers the iliacus internus muscle; and on its pubic side, the united tendons of the internal oblique and transversalis muscles are inserted into the linea ileo-pectinea. If we push our finger into this depression, and force it through the cribriform fascia, it will pass down into that hollow on the fore part of the thigh, which has been already described as the situation in which a femoral hernia lies. The firm connection which there was between the fascia superficialis and the glands of the groin, would have prevented us from passing the finger farther down; but if we turn up the finger as a hernia does, when it increases in size, we shall find that it not only presses against the superficial arch, but that there is also a resistance to it, caused by a part more deeply situated; this will afterwards be found to have been produced by that which is called the deep crescentic arch. To show this deep arch as a distinct fascia, there is a great deal of dissection required, and it may very justly be criticised as one of the tricks of the dis- sector; but as it is a point of anatomy which is often talked of, we shall describe what appears to us to be the easiest mode of displaying it. It may be shown on the same limb in which the anatomy of inguinal hernia has been seen, but it would be better to have another, and then we may proceed thus:—after having made the dissection of the external oblique, and of the superficial crescentic arch, in the manner already de- scribed; we should hold up the flap of the external oblique, and dissect between it and the internal as far down as the edge of Poupart's ligament. The ligament is then to be divided into two laminae, by forcing the handle of a knife between the point of union of the external and internal oblique with it; by GUIDE TO ANATOMY. 37 pushing the knife towards the thigh, it will pass under the fascia lata; then by moving it in a horizontal direc- tion between the pubes and ilium, the external oblique and fascia lata, which are connected together through the medium of the superficial part of Poupart's liga- ment, will be so completely separated from the parts below, that the ligament will appear to be formed by them only. But if we cut through the attachment of the ligament to the superior anterior spinous process of the ilium, and through the fascia lata as far down as the crescentic arch, (to save the parts below, it is useful to keep the handle of the knife under the fascia, as a directory to cut upon,) we shall then have a view very similar to that we have just destroyed, for we shall see that the deep crescentic fascia has nearly the same form as the superficial arch. This deep arch may be described as being formed on the iliac side of the vessels, by a connection between the fascia iliaca and the obliquus internus and transver- salis, and part of Poupart's ligament; and on the pubic side, by the fascia transversalis, in union with the insertions of the tendons of the two muscles into the linea ileo-pectinea. But this we shall more fully comprehend by examining the parts from within. On looking into the pelvis, we see the artery and vein, surrounded by a proper sheath, lying upon the iliac fascia, which is the name given to that which covers the iliacus internus and psoas magnus. If we hold up the part of the abdominal muscles which has been left, and look under them towards the thigh, we shall see an opening like the mouth of a funnel, into which the vessels, surrounded by their sheath, pass. The posterior boundary of this space may be described as formed by a prolongation from the fascia iliaca, and from which, for a certain space, the vessels can be easily separated. The anterior boundary may be traced from the fascia transversalis; being in fact, that 4 38 LONDON DISSECTOR, OR which is in close connection with the abdominal muscles, and forms part of that which has been called the deep crescentic arch. At a short distance below Poupart's ligament, the fascia iliaca and transversalis become so closely connected with each other, and with the cellular membrane which forms the sheath of the vessels, that they cannot be traced farther down upon the thigh. The space which has just been described as bounded by the fascia iliaca and fascia transversalis, has re- ceived various names; by many surgeons it has been called the crural sheath,* by others, the sheath of the vessels; and consequently, when the latter describe femoral hernia, they say that it passes along the sheath of the vessels; but this language is very incorrect, and leads to great confusion, for the proper sheath of the vessels is a distinct part, formed by cellular mem- brane, which surrounds them through their whole course from the sacrum to the point where the pro- funda is given off. M. Cloquet gives the description of this part too much in the spirit of a modern discoverer of fasciae and rings. He says that we have here a part analo- gous to the inguinal canal; that this (the crural canal) "has a superior and inferior opening. The inferior is the opening by which the saphena passes through the fascia lata to enter the femoral vein." Although this opening is represented in all the plates of the anatomy of the groin, given by our own authors, yet we have not described it, because we think that it is not of importance, in considering femoral hernia,— not on account of its situation, but because the con- nection which there is between the fascia superficialis and the lymphatic glands, prevents a femoral hernia * There is no crural ring in the natural state of the parts, but it may be felt during an operation; and a distinct ring may be shown in a pre- paration, by removing the whole of the herniary sac. Such an appear- ance is very well shown in Mr. Cooper's plates. GUIDE TO ANATOMY. 39 from passing so low down. There are no cases given by English authors, of hernia protruding through this hole, but M. Cloquet says, that he and M. Beclard, have seen many examples of it. SECTION III. Dissection of the Cavity of the Abdomen. The abdomen is divided into three regions, each of which is again sub-divided. 1. The Epigastric, or upper region, includes the part covered at the side by the ribs; its lateral por- tions are named the right and left Hypochondria, and its central, the scrobiculus cordis. 2. The Umbilical, or middle region, is the space immediately under the former; and it extends below to the anterior superior spines of the ilia. Its sides are called the lumbar or iliac regions. 3. The Hypogastric, or lowest region, is sub- divided into three parts, one middle, termed Regio Pubis, and two lateral, named Inguinal regions. Before you disturb the viscera, observe the general situation of those parts which appear on first opening the abdomen. 1. The internal surface of the Peritoneum, smooth, shining, and colorless, covering the parietes of the abdomen, and the surface of all the viscera. 2. In the triangular portion formed by two ima- ginary lines drawn from the anterior spinous process of the ilium to the umbilicus, three ligamentous cords projecting through the peritoneum, two running late- rally, and the other in the middle, towards the navel. These are the remains of the two umbilical arteries and the urachus. 40 LONDON DISSECTOR, OR 3. The epigastric artery, accompanied by two veins, may be seen through the peritoneum, ascend- ing obliquely upwards and inwards from under Pou- part's ligament. 4. The upper edge of the liver is seen extending from the right hypochondriac region, across the epigastric, into the left hypochondriac region; in it a fissure is seen, into which enters, inclosed in a duplicature of peritoneum, the ligamentum teres, which was, in the foetus, the umbilical vein. The fundus of the gall-bladder, if distended, is sometimes seen projecting from under the edge of the liver. 5. The Stomach will be found lying in the left hypochondriac region, and upper part of the epigas- tric; but, if distended, it protrudes into the umbilical region. 6. The Great Omentum, or omentum majus, pro- ceeds from the great curvature of the stomach, and is spread like an apron over the intestines, 7. The Great Transverse Arch of the Colon will be seen projecting through the omentum; it ascends from the os ilium of the right side, crosses the belly under the edge of the liver, and under the greater curvature of the stomach, and descending again upon the left side, sinks under the small intes- tines, and rests upon the wing of the left os ilium. 8. The Small Intestines lie convoluted in the lower part of the belly, surrounded by the arch of the colon. Such is the general appearance on first opening the abdomen; this will vary, however, as one intestine may happen to be more inflated than another, or according to the position of the body after death. But to consider the parts more minutely: 1. The Peritoneum.—Observe how it is reflected from the parietes of the abdomen over all the viscera, so that they may be said to be situated behind it; guide to anatomy. 41 trace its reflections from side to side, and from above downwards; you will see that the external coat of every viscus, and all the connecting ligaments, are reflections or continuations of this membrane. (1.) The four Ligaments of the Liver are form- ed by the peritoneum, continued from the diaphragm and parietes of the abdomen. a, The Middle or Suspensory Ligament, inclos- ing in its duplicature the Ligamentum Teres. b, The Coronary Ligament, connecting the upper surface of the liver to the diaphragm. c, The Broad Ligament of the right side. d, The Broad Ligament of the left side. (2.) The Lesser Omentum, or Epiploon, or the Mesogastrion, is formed by two laminae of perito- neum, passing from the under surface of the liver1 to the less curvature of the stomach, and containing in its duplicature the vessels of the liver. (3.) The Great Epiploon or Omentum.—Ob- serve, that the peritoneum, coming from both sur- faces of the stomach, and from the spleen, proceeds downwards into the abdomen, and is then reflected back upon itself, till it reaches the transverse arch of the colon, where its laminae separate to invest that intestine. This reflection is named the Great Omen- tum; it is a pouch or bag, composed of four laminae of peritoneum, and the opening into it is by the Fo- ramen of Winslow: Observe the situation of this semilunar opening; it is on the right side of the abdo- men, at the root of the less lobe, or lobulus spigelii of the liver; it leads under the little epiploon, under the posterior surface of the stomach, but above the pancreas and colon, into the sac of the omentum;— the omentum sometimes reaches to the lower part of the hypogastric region, sometimes not beyond the navel; it contains in its duplicature more or less of adipose substance. 4* 42 LONDON DISSECTOR, OR (4.) The Mesentery.—Observe, that the perito- neum, reflected from each side of the vertebrae, pro- ceeds forward, to connect the intestines loosely to the spine; that it begins opposite to the first lumbar ver- tebra, crosses obliquely from left to right, and ends half-way between the last lumbar vertebra and the groin. At its commencement, it binds down the extremity of the duodenum, and terminates where the head of the colon begins. The great circumference which is in contact with the intestines, is very much plaited or folded, and is several yards in length. Between the laminae of mesentery, observe the Con- globate Glands, less numerous in old age: the branches of the superior mesenteric artery ramifying and forming arches; the mesenteric veins accompa- nying the arteries; the trunk of the lacteals, situated contiguous to the mesenteric artery on its left side. It may sometimes be inflated by the blow-pipe. Nerves also run in the mesentery, but are not easily demonstrated. (5.) The Mesocolon is similar to the mesentery, and connects, in like manner, the colon to the spine. 2. Hepar, the Liver.—Situation: Partly in the right hypochondrium, which it fills up, reaching as low as the kidney of that side, partly in the epigas- trium, and running also some way into the left hypo- chondrium. Connected by its four ligaments to the inferior sur- face of the diaphragm, and by the smaller epiploon to the small curvature of the stomach:—The little epiploon should now be removed, to discover the different parts of the liver. Observe its superior or convex surface adapted to the arch of the diaphragm; the inferior or concave surface resting on the stomach;—the posterior or thick edge lying against the vertebrae, and the anterior thin margin corresponding to the lower edge of the guide to anatomy. 43 chest;—Observe the three lobes of the liver;—the great or right lobe;—the small or left lobe;—the lobu- lus spigelii;—the great fissure, separating the right and left lobe, and receiving the suspensory ligament, and the ligamentum teres;—the cavity of the portae between the great lobe and lobulus spigelii;—the fis- sure on the right side of the lobulus for the vena cava inferior, which fissure is almost a complete foramen; the notch in the back-part for the vertebras;—the depression in the right, lobe for the gall-bladder. Observe the vessels in the cavity of the portae, the hepatic artery on the left side, the ductus communis choledochus on the right side, and betwixt, but at the same time behind them, the vena portae; they are all surrounded by a plexus of nerves. These vessels and nerves pass along the edge of the mesogaster, or little omentum, surrounded and connected by adipose and cellular substance; the part is called Capsula Glissom. Observe that the ligamentum teres was the umbilical vein of the foetus, entering the vena portae, and that the ductus venosus in the foetus (ob- literated in the adult,) leaving the vena portas, passed into one of the venae cavae hepaticae. 3. Vesicula Fellis, the Gall-Bladder.—Situa- tion: In the right hypochondrium, in a superficial depression on the under surface of the right lobe of the liver; it sends off the Ductus Cysticus, which, unit- ing with the Ductus Hepaticus, forms the Ductus Communis Choledochus; this perforates the first curvature of the duodenum. 4. VENTRicuLus,the Stomach.—Situation: In the left hypochondriac and epigastric regions: Connected to part of the inferior surface of the diaphragm, to the concave surface of the liver by the little epiploon, to the spleen by a reflection of peritoneum, and to the arch of the colon by the great omentum. Ob- serve its greater curvature looking downwards, its 44 LONDON DISSECTOR, OR less curvature looking upwards; and its two lateral surfaces. Observe the bulging extremity on the left side, the cardia or upper orifice, where the oesopha- gus enters, and the pylorus, or lower orifice, at the end of the small extremity. 5. The Intestines.—They are divided into two classes, the small and the large. The small intestines are again subdivided into the duodenum, jejunum, and ileon; the large into caecum, colon and rectum. (1.) Small Imtestines.—They are about four times as large as the body. a, The Duodenum is broader than any other part of the small intestines, but is exceedingly short: leav- ing the pylorus it passes upwards, under the liver and gall-bladder; and turning upon itself, it descends, as low as the right kidney; in which space it receives the pancreatic and cystic ducts; it then crosses before the renal vessels and the aorta, and being firmly bound down by the peritoneum, upon the last vertebra of the back, it ascends from right to left, till it is lost under the root of the mesocolon. By turning back the colon and omentum, over the brim of the thorax, and pushing down the small intes- tines towards the pelvis, you find the duodenum com- ing out from under the mesocolon, but still tied close to the spine; it terminates in the jejunum, exactly where the mesentery begins. b, The Jejunum constitutes the first or upper half of the remaining small intestines, and is situated more in the upper part of the abdomen; it is redder, and its coats feel thicker to the touch, from the greater number of the valvules conniventes on its inner sur- face; and its diameter exceeds that of the ileon. c, The lower half is named Ileon; it is situated more in the lower part of the abdomen, and termi- GUIDE TO ANATOMY. 45 nates in the great intestine, by entering the caput coli, or beginning of the colon. The course of the canal, independently of its con- volutions, is from the left lumbar region, where the duodenum emerges from under the mesocolon to the right inguinal region, where the ileon terminates in the caput coli. (2.) The divisions of the great intestines. d, The Cacum, or blind gut, is tied down by the peritoneum to the loins on the right side, lying in the space under the right kidney, and hid by the convo- lutions of the ileon. On its posterior part there is a little appendage, of the shape of an earth-worm, named Appendix Cozci Vermijormis. e, The Colon.—Its commencement at the caecum is termed Caput Coli, or head of the colon; it passes from the cascum over the right kidney, to which it is connected by cellular substance, and having passed under the gall-bladder, which, after death, tinges it with bile, it goes across the upper part of the belly, forms the Great Transverse Arch. In its whole course it is contracted into cells by its muscular fibres, which are united together, forming longitudinal bands; and to its surface are attached some fatty pro- jections named Appendices Epiploicae. These two circumstances may distinguish the large from the small intestines; more than their difference of size. For when the large intestine is empty, it contracts, and may be even smaller than the small; but if it were inflated, it could be distended to a much greater degree. The colon then passes backwards under the stomach and spleen into the left hypochondrium; and descending over the left kidney, it is again tied down; finally it turns over the brim of the pelvis, being at this part unconfined, and forming a loose and remarkable curvature, which is named the Sigmoid or Iliac Flexure, terminates in 46 LONDON DISSECTOR, OR The Rectum.—Which descends along the anterior surface of the sacrum and os coccygis to the anus. By drawing the stomach towards the right side, you will expose, 6. The Lien, or Spleen.—Situation: In the left hypochondriac region, between the great extremity of the stomach, and the neighbouring false ribs, under the edge of the diaphragm, and above the left kid- ney; to all of which it is connected by the perito- neum. It is of an oval figure; slightly convex on its external and irregularly concave on its internal sur- face, and divided by a longitudinal fissure, into which its vessels enter. 7. The Pancreas.—This gland was in part seen on removing the little epiploon; it is more fully exposed,'by tearing through the great epiploon between the great curvature of the stomach, and the transverse arch of the colon. It lies in the cavity into which the foramen of Winslow leads; it extends from the fissure of the spleen across the spine, under the pos- terior surface of the stomach, and terminates within the circle formed by the duodenum; it is only covered on its anterior surface by the peritoneum. The Pancreatic Duct pierces the coats of the duodenum, and enters the cavity of that intestine, by an orifice common to it, and to the ductus communis choledochus. The duct runs along the very centre of the gland, where the whiteness of its coats will readily enable the student to distinguish it. All the abdominal viscera may now be removed, except the rectum, where it descends into the pelvis, which, being tied, should be allowed to remain, for it belongs to the demonstration of those parts: or the liver and its vessels, with the pancreas, may be left; and the vessels entering the portae of the liver traced. The peritoneum should now be carefully dissected from the diaphragm, and from the sides and back-part GUIDE TO ANATOMY. 47 of the abdomen, that the parts which lie more imme- diately behind that membrane may be examined. 8. Renes, the Kidneys. Two glandular bodies, situated in the posterior part of the abdominal cavity, one on each side of the lumbar vertebrae, between the last false rib and the spine of the ilium, and imbed- ded in a quantity of adipose membrane. Each kidney has a concavity turned obliquely for- wards and inwards; and is convex obliquely back- wards and outwards; its superior extremity is nearer to that of the opposite kidney than the inferior. Observe the renal or emulgent artery entering the concave sur- face, and the vein and ureter passing out. Notice the course of the ureter; it passes behind the peritoneum over the psoas muscle into the pelvis, and running between the rectum and bladder, penetrates the latter. 9. The Capsula Ren ales.—Are two glandular bodies situated on the upper extremity of each kid- ney, their figure is irregular, crescent-like, or some- what triangular. By the removal of the peritoneum, several muscles are exposed, situated at the superior and posterior parts of the abdomen. DlAPHRAGMA, the DlAPHRAGM, Or MlDRIFF.-- This is a broad, thin, muscular septum between the thorax and abdomen; it is concave below, and convex above, the middle of it on each side reaching as high within the thorax as the fourth rib. It is divided into two portions: 1. The superior or greater muscle of the dia- phragm, forms the transverse partition between the chest and abdomen, Arising, by distinct fleshy fibres, 1. From the pos- terior surface of the ensiform cartilage; 2. From the cartilages of the seventh, and all the false ribs; 3. From the ligamentum arcuatum, which is a ligament extending from the top of the twelfth rib to the lum- 48 LONDON DISSECTOR, OR bar vertebrae, forming an arch over the psoas and quadratus lumborum muscles. The fibres run, in dif- ferent directions, like radii from the circumference to the centre of a circle, and are Inserted into a broad tendon (tendinous centre, or cordiform tendon,) which is situated in the middle of the diaphragm, and in which, therefore, the fibres from the opposite sides are interlaced. 2. The inferior or less muscle, or appendix of the diaphragm, lies on the bodies of the vertebrae, and Arises, by four small tendinous feet, on each side, from the second, third, and fourth lumbar vertebras; these tendons soon join, to form a strong pillar on each side, named the Crus of the Diaphragm. The crura run obliquely upwards and forwards, form too fleshy bellies, a fasciculus of each of which crossing over to the other, decussates with the opposite one, and thus forms the interval of the two crura into a superior and inferior opening. Inserted into the posterior part of the middle cor- diform tendon. Situation: The diaphragm is perforated in its fleshy and tendinous parts by several blood-vessels, and other important organs. (1.) The aorta lying close upon the spine passes between the tendinous part of the crura; and the tho- racic duct passes betwixt the orta and the right crus. (2.) A little above, and to the left side of the aorta, the oesophagus, with the eighth pair of nerves attached to it, passes through an oval fissure formed in the fleshy columns of the inferior muscle. These two parts are separated by the decussating fasciculi just described. (3.) The vena cava perforates the tendon towards the right side by a triangular hole. (4.) The posterior intercostal nerve, and branches of the vena azygos, perforate some of the posterior GUIDE TO ANATOMY. 49 fibres of the crura:—The splanchnic, or anterior intercostal nerve, also passes through an opening in the substance of the crura. (5.) On each side of the sternum there is a small fissure, where the peritoneum and pleura are only separated by adipose membrane. Use: The diaphragm is one of the chief agents in respiration; it also acts in coughing, laughing, and speaking, and in the expulsion of the urine and faeces. The muscles situated within the posterior part of the abdominal cavity are four on each side. 1. The Psoas Parvus.—It arises, fleshy, from the sides of the last dorsal, and first lumbar vertebra; it sends off a small long tendon, which, running on the inside of the psoas magnus, is Inserted, thin and flat, into the brim of the pelvis, at the junction of the os ilium and pubis. This muscle lies on the anterior part of the loins, betwixt the psoas magnus and the vertebras; some- times, however, it is wanting. 2. The Psoas Magnus.—It is situated between the psoas parvus and iliacus internus. It arises, fleshy, from the side of the body, and transverse process of the last vertebra of the back, and in the same manner from all those of the loins, by as many distinct slips. It runs down over the brim of the pelvis, and is Inserted, tendinous, into the trochanter minor of the os femoris, and fleshy, into that bone immediately below the trochanter. 3. The Iliacus Internus.—This muscle fills up the internal concave surface of the os ilium. It arises, fleshy, from the transverse process of the last lumbar vertebra, from all the inner margin of the spine of the os ileum, from the edge of that bone between its anterior superior spinous process and the acetabulum, and from all its hollow part between the spine and the linea innominata. Its fibres descend under the outer 5 50 LONDON DISSECTOR, &C. half of Poupart's ligament, and join the tendon of the- psoas magnus. Inserted with the psoas magnus into the trochanter minor. This muscle is covered by a pretty strong fascia, which is inserted into the crista of the ilium, and into the crural arch: the Fascia Iliaca. The latter insertion prevents the bowels from descending under Poupart's ligament, except at the inner edge of the iliac vein, which is accordingly the situation of the crural hernia, and which the student should exam- ine most carefully. A part of this fascia is also continued behind the femoral vessels over the pubis, to form a part of the sheath which incloses those vessels. 4. The Quadratus Lumborum.—This muscle arises, tendinous and fleshy, from rather more than the posterior third of the spine of the os ilium. Inserted into the transverse processes of all the ver- tebras of the loins, the posterior half of the last rib, and, by a small tendon, into the side of the last ver- tebra of the back. It is situated laterally at the lower part of the spine, more outwardly than the psoas magnus, between the origin of the psoas and the transversalis abdominis. CHAPTER II. DISSECTION OF THE PERINEUM AND OF THE MALE ORGANS OF GENERATION. The muscles to be demonstrated being imbedded in loose cellular substance, are to be dissected with great caution. The Rectum having been cleansed, hair may be introduced into its extremity, to keep the anus gently protruding during the dissection; or a cork, with a loop attached to it, may be introduced, and the mouth of the gut tied upon it;—this last method is preferable, as the intestine can then be turned in every direction. To facilitate the dissection introduce a staff into the bladder, to mark out the situation of the urethra; and place the subject in the same position as for the lateral operation of lithotomy. The muscles of the perineum consist of five pair, and a single muscle: Erector Penis, Accelerator Urina, on C Sphincter Transversus Perinai, > each J Ani, single Levator Ani, side. £ muscle. COCCYGEUS. In commencing this important dissection, recollect that the erector muscle, covering the crus of the penis, arises from the tuber ischii, and ascends on the inside of the ramus of that bone,—that the transversus perinei arises from nearly the same point, and crosses the perineum, lying often at a considerable depth in the adipose substance. The tuber ischii then be- comes a proper place for the commencement of the 52 LONDON DISSECTOR, OR dissection; carefully tracing the muscles arising from that point, remove all the cellular substance, situated in the perineum, while the muscular fibres are left untouched; the Raphe or line running along the skin of the perineum, marks the place where the opposite muscles meet. The appearance of these muscles will vary in different subjects. In the weak and emaciated, the fibres will be pale, and not very evi- dent, while in strong muscular men, who have expired suddenly, they will be very distinct. This dissection is to be continued till all the parts between the tube- rosities of the ischia on each side, and between the pubis before, and the tip of the os coccygis behind, are fairly brought into view. Observe The Erector Penis covering the crus of the penis. The Accelerator Urina embracing the bulb and lower part of the Corpus Spongiosum of the urethra. The Sphincter Ani, encircling the anus. The Transversus Perinai, crossing the perineum transversely. 1. The Erector Penis—Arises, tendinous and fleshy, from the tuberosity of the os ischium; its fleshy fibres proceed upwards over the crus of the penis, adhering to the outer and inner edges of the ascending ramus of the os ischium, and of the de- scending ramus of the os pubis;—but before the two crura meet to form the body of the penis, it ends in a flat tendon, which is lost in the strong tendinous membrane that covers the corpus cavernosum. 2. The accelerator Urina—Arises, by a thin tendinous expansion, from the descending ramus of the pubis, and from the ascending ramus of the ischium, nearly as far down as the tuber; the fleshy fibres are seen coming out from the angle between the crus and the corpus spongiosum urethras- GUIDE TO ANATOMY. 53 they proceed obliquely downwards and backwards, embrace the bulb and lower part of the corpus spon- giosum, and are Inserted into a white tendinous line in the middle of the bulb of the urethra, joining there with the muscle of the opposite side. The lowermost fibres run nearly transversely, while the superior fibres are very oblique. This muscle, called also,, ejaculator seminis, forces the urine and semen forwards, by compressing the lower part of the urethra, and propels the blood towards the corpus spongiosum and the glans penis. 3. The Transversus Perinai—Arises from the tough fatty membrane that covers the tuber ischii, immediately behind the attachment of the erector penis; thence its fibres run transversely inwards. Inserted into the central point of union where the sphincter ani touches the accelerator urinae, and where a kind of tendinous projection is formed, com- mon to the five muscles. Use: This muscle, or the transversalis penis serves to dilate the bulb of the urethra, to prevent the anus from being too much protruded, and to retract it when protruded. There is sometimes another slip of fibres, the Transversus Perinai Alter, which has the same course, and is inserted into the posterior part of the bulb of the urethra. 4. The Sphincter Ani is a broad circular band of fibres which surround the extremity of the rectum, passing nearly as far out as the tuber ischii; the fibres of each side decussate where they meet. It arises from the extremity of the os coccygis be- hind;* and is inserted before into a tendinous point ♦The sphincter ani often arises by an elastic tendon, approaching to the nature of a ligament, from the apex of the os coccygis. This tendon is of some length; it gives off muscular fibres, which surround the extremity of the rectum. 5* 54 LONDON DISSECTOR, OR common to this muscle, and to the accelerators urinae and transversi perinei. This tendinous point is worthy of remark; it seems to consist in part of an elastic ligamentous substance. It closes the anus, or extremity of the rectum, and draws down the bulb of the urethra. It is in a state of constant contraction, independently of the will, in order to prevent the contents of the rectum from escaping except at those times when we make an effort to evacuate them. More deeply seated than the muscles now describ- ed, we see some of the fibres of The Levator Ani.—This muscle, called also Musculus ani Lotus, arises from the inside of the os pubis, at the upper edge of the foramen thyroideum, from the inside of the os ischium, from the tendinous membrane covering the obturator internus and coccy- geus muscles;—from this semicircular origin its fibres run down like radii towards a centre, and are Inserted into the two last bones of the os coccygis, and the verge of the anus, passing within the fibres of the sphincter ani, but on the outside of the longitudinal fibres of the gut itself. This muscle, with its fellow, very much resembles a funnel, surrounding the extremity of the rectum, the neck of the bladder, (which passes through a slit in its fibres,) the prostrate gland, and part of the vesiculae seminales. It serves to draw the rectum upwards after the evacuation of the faeces, to assist in closing it, and to compress the vesciculas seminales, and other viscera of the pelvis. 6. The Coccygeus arises, tendinous and fleshy, from the spinous process of the os ischium, and covers the inside of the posterior sacro-sciatic ligament; it forms a thin fleshy belly. GUIDE TO ANATOMY. 55 Inserted into the extremity of the os sacrum, and the lateral surface of the coccygis, immediately before the gluteus maximus, and between it and the levator ani. It supports and moves the os coccygis forwards, and connects it more firmly with the sacrum. The acceleratores urinae and transversi perinei must now be removed from their insertions. They may be left suspended by their attachments to the bone. The rectum must be separated from the bladder, and pulled downwards. This dissection will expose a great part of the levator ani;—the neck and body of the bladder;—the prostrate gland;—the vesiculae semina- les;—the glandulae anteprostatae;—part of the vasa deferentia; part of the ureters;—the urethra, its mem- branous part, its bulb, and corpus spongiosum;—the crura penis, and their origins from the ischium;— Observe, 1. The connection of the bladder and rectum, and the cellular substance interposed between them, 2. The prostate gland: Situated between the blad- der and rectum, surrounding the beginning of the urethra in such a manner, that one third of its thick- ness is situated above the urethra, and two-thirds below it; its shape is somewhat pyriform, and its consistence between cartilage and ligament. 3. The Urethra.—The curve should be carefully observed. The urethra begins at the neck of the bladder; it is a continuation of that part of the bladder which in the erect posture is lowest. (1.) Its begin- ning is imbedded in the prostate gland. (2.) Its membranous part is very short,—situated between the prostate gland and bulb of the urethra:—in dis- secting, remark, that there is a firm fasciculus of fibres surrounding it, and connecting it and the pros- tate gland to the arch of the pubis; this fasciculus gives support to the urethra, and is termed the liga- 56 LONDON DISSECTOR, OR mentum triangulare urethras. It is sometimes described as a compressor muscle of the prostate gland. (3.) The urethra then enters the corpus spongiosum. 4. The Corpus Spongiosum Urethra consists of a plexus of minute veins covered externally by a thin but uniform tendinous sheath; it surrounds the urethra from a short distance from the bladder to its extremity: at its beginning, it forms a considerable body of a pyriform shape, termed the Bulb of the Urethra; that part of the bulb which is below the urethra, is named the pendulus part of the bulb. The corpus spongiosum is expanded at its anterior extre- mity, to form the glans penis. 5. The Glandula Anteprostata, or Cowper's Glands, are two small glands of the size of peas, situ- ated immediately before the prostate, and between the membranous part and bulb of the urethra. 6. The Vesicula Seminales are two soft, whitish, knotted bodies, about three or four fingers-breadth in length, and one in breadth, and about three times as broad as thick: Situated between the rectum and lower part of the bladder obliquely, so that their inferior extremities are contiguous, and are affixed to the base of the prostate gland, while their superior extremities are at a distance from each other extending outwards and upwards, and terminating just on the inside of the insertion of the ureters in the bladder. 7. The two Vasa Deferentia are seen running betwixt the vesiculae seminales, and united to them and to the base of the prostate. Observe that part of the bladder, left between these tubes, and connected by cellular substance to the rectum, which is pierced when the bladder is punctured from the latter part. 8. The Corpora Cavernosa Penis arise, on each side, by a process named the Crus, from the ramus and tuber ischii, ascend along the ischium and pubis, and are united immediately before the cartila- guide to anatomy. 57 ginous arch of the pubis;—they are covered by a strong, white, shining, fibrous, ligamento-tendinous substance, which is very elastic. Internally they are cavernous, and are separated from each other by a septum, which, from being perforated, is named Septum pectiniforme. By the union of the corpora cavernosa, two grooves are formed:—(1.) A smaller one above, in which two arteries pass, a large vein or two betwixt them, and some large twigs of nerves. (2.) A larger groove below, which receives the urethra. 9. The Vesica Urinaria, or Urinary Bladder, is situated within the pelvis, immediately behind the ossa pubis, and before the rectum. It is covered on its upper and back part by a reflection of peritoneum: in front and below (where it is contiguous to the rec- tum,) it is connected by cellular membrane to the sur- rounding parts. Shape, oval, but flattened before and behind, and, while in the pelvis, somewhat triangular. Divided into the fundus or bottom, corpus or body, and cervix or neck. In the contracted state, the fundus is the broadest and roundest part, but, when distended, the cervix is broader than any other part. At the top of the bladder, above the symphysis pubis, may be observed, the superior ligament of the bladder, con- sisting of the Urachus, a ligamentous cord, which runs up between the peritoneum and linea alba, as far as the navel,* and two of the ligamentous cords, which are the remains of the umbilical arteries, and run up from the sides of the bladder. The ligamentum inferius vesicas connects the bladder to the upper and inner side of the ossa pubis. Observe the parts of the bladder not covered by peritoneum; as they are the situations of surgical operations. These are the whole anterior surface, lying against the pubis, and rising above it, when the * In the foetus, it is a prolongation or production of the coats of the bladder. 58 LONDON DISSECTOR, OR bladder is distended, so that it may be punctured above the pubis;—the sides, at the very lowest part of whieh the incision is made in the lateral operation of lithotomy, and where the viscus may be punctured from the perineum;—and the inferior surface, resting on the rectum, and allowing us to puncture from it. Observe also the direction of the axis of the bladder, in conformity with which all instruments should be introduced. 10. The entrance of the ureters into the bladder on the outside of the vesiculae seminales. 11. The rectum, following the curve of the os sacrum, and os coccygis. 12. The prepuce is a fold of skin forming a sheath or covering for the glans penis. It makes a duplica- ture extending along the flat part of the glans from its basis to the orifice of the urethra, termed Franum Praputii. To have a more connected view of the relative situation of these important parts, one side of the pelvis should now be removed, by dividing the sym- physis pubis, and by sawing through the os ileum, or separating it at its junction with the sacrum. By carefully removing all the cellular membrane, the student will be enabled more accurately to examine the situation of the parts above described. OF THE SCROTUM. The scrotum consists externally of a loose, rugose skin, and internally of condensed cellular membrane, which has been described as a muscle, under the name of Dartos. On dividing the anterior part of the scrotum, on either side of the raphe, we expose, 1. The Testicle, a gland of an oval flattened form, guide to anatomy. 59 covered by the tunica vaginalis, having on its upper edge an appendage termed Epididymis. 2. The Spermatic Chord, connecting the testicle to the abdominal ring. It consists of, «, The spermatic artery, a branch of the aorta; this divides into several branches, which enter the upper edge of the testicle. 6, The spermatic veins, which form a plexus, that terminates in the abdomen, in a single vein. c, The spermatic nerves, which come from the • intercostal and lumbar nerves. d, The vas deferens, or excretory duct of the tes- ticle;—this is situated in the back part of the chord, and is distinguished by its firm cartilaginous feel. e, The spermatic absorbents. /, These parts are all connected by cellular mem- brane, and by the tunica vaginalis, which is covered by a thin muscle. g, The cremaster;—this arises from the obliquus descendens internus, and is lost on the tunica vaginalis. The interna] proper covering of the testicle is a serous coat, and is denominated the tunica albuginea. CHAPTER III. DISSECTION OF THE ORGANS OF GE- NERATION IN THE FEMALE. Previous to the dissection, it will be proper to examine the external parts. The Mons Veneris is a rounded prominence, covered with hairs after puberty, situated at the lower part of the belly, and arising on each side gradually from the groins; it consists of the common 60 LONDON DISSECTOR, OR integuments, with an additional quantity of cellular and adipose substance, and lies upon the fore part of the ossa pubis. From the inferior part of the mons veneris arise The Labia Externa, called also the labia or alae pudendi:—they are continued downwards and forwards in the direction of the symphysis pubis, and terminate in the perineum anterius: they consist of integuments, cellular substance, and fat,—are thicker above than • below,—and are red and vascular on their inner side. The places where the labia are joined to each other above and below, are termed Commissures. The longitudinal cavity or fissure, situated betwixt the labia, and extending from the mons veneris to the perineum anterius, is sometimes called the Sinus Pudoris; it is broader above than below, and contains several other parts. On separating the labia, we see, immediately below the superior commissure; The Clitoris, a red projecting body, situated be- low the arch of the pubis, and partly covered by its Prepuce: The prepuce is a fold of skin, continued from the inner surface of the labia, so as to cover the superior and lateral parts of the clitoris.—The clitoris resembles the penis of the male, and consists of two cavernous bodies; these cannot, however, be traced in this stage of the dissection. That part of the body which forms an obtuse projection externally, is called the Glans. The Perineum Anterius is that portion of the soft parts which extends from the inferior commissure of the labia to the anus. The Perineum Posterius is the space betwixt the anus and point of the os coccygis. The Nympha are two prominent doublings of the integuments, extending from the glans of the clitoris to the sides of the vagina. Their external side is con- guide to anatomy. 61 tinued from the inner surface of the labia, and from the prepuce of the clitoris, while their internal surface seems immediately continued from the fine, thin, vas- cular integuments covering the clitoris itself; they are spongy, and consist internally of cellular -and adipose substance. A little lower we -see the orifice of the urethra; it is situated below the clitoris and arch of the pubis, be- twixt the nymphae, and above the orifice of the vagina: it consists of a small rising prominence like a pea, in • the centre of which is a small opening or hole. On each side of the orifice of the urethra, we meet generally with the orifices of two mucous glands, which by some are named Cowper's Glands of the female. On separating the lower part of the labia pudendi, we see the Vestibulum, a space which leads to the vagina; it is bounded behind, by the carunculas myrti- formes, or by the hymen in virgins; on the sides, by the labia; before, by the perineum anterius, which pro jects forwards, forming a kind of valve, so that a little pit is formed behind it, which is termed Fossa Navi- cularis, or Scaphoides. The Hymen, or Circulus Membranosus, is a thin and extensile membrane, formed by a doubling of the inner surface of the vestibulum and lower part of the vagina, the entrance of which is by its means much contracted in virgins. It generally has an opening in its upper part, but it is completely ruptured in the first coitus: its form is various, frequently semilunar, and then its base is attached to the vestibulum, while its cornua extend upwards as far as the sides of the urethra. After the destruction of the hymen, in married women, we see some irregular projections marking the orifice of the vagina, and termed Caruncula Myrtiformes: they are generally supposed to be 62 LONDON DISSECTOR, OR the remains of the hymen, but are not exactly in the same situation. Behind these is the Vagina, or canal leading to the uterus; at the extremity of which may be felt project- ing the Os Internum Uteri, or Os Tinca, but it cannot be seen without dissection. The skin should now be divided on the side of the right labium, and the dissection should be carried from the groin to the side of the anus; the cellular membrane must be carefully removed, in order to expose the following parts. We find the Clitoris consisting of two spongy bodies termed Crura, which unite and form the body. The crus of each side is a cavernous body, arising from the ramus and upper part of the tuberosity of the ischium, continued along the ramus of the os pubis, and uniting with its fellow opposite to the symphysis pubis. The body formed by the crura does not extend upwards, but forms a curve downwards towards the urethra; it is divided internally by the Septum Pec- timforme, and is attached to the spmphysis pubis by a suspensory ligament: it is invested by a ligamentous membrane. The muscles which are met with in this dissection consist of four pair, and two single muscles. The Erector Clitoridis, Transversus Perinai, Levator Ani, Coccygeus, The Sphincter Ani, 7 . • i Sphincter Vagina J two sin^le muscles 1. The Erector Clitoridis arises, fleshy and tendinous, from the tuber ischii, from the inside of the ramus of the os ischium, and from the ramus of the os pubis: It passes over the crus of the clitoris, and be- coming tendinous, is lost upon it. on each side. GUIDE TO ANATOMY. 63 Arising from the same point, and surrounded by much cellular membrane, we find, 2. The Transversus Perinai.—Its origin is the same as in the male. It is inserted into a ligamentous substance in the pe- rineum anterius, at the point where the sphincter ani and sphincter vaginae meet. This ligamentous or tendinous substance deserves attention. Here, as in the male, it is the point of union into which different muscles are inserted. This muscle serves to sustain the perineum. 3. Surrounding the extremity of the vagina, and a small part of the vestibulum, we find the Sphincter Vagina; it arises anteriorly, from the crura of the cli- toris on each side; it surrounds the orifice of the vagi- na, and is Inserted into the ligamentous point of the perineum, where the fibres of each side meet, and are connected with those of the transversi perinaei, and with the sphincter ani. It contracts the mouth of the vagina, and compresses the plexus retiformis. 4. The Sphincter Ani exactly resembles the same muscle in the male. 5. The Levator Ani resembles the same muscle of the male; it surrounds the sides of the vagina in part, and consequently assists in constricting and supporting it. 6. The Coccygeus is longer than in the male, from the greater transverse diameter of the inferior aperture of the pelvis. Under the fibres of the sphincter vaginae, you will find the Plexus Retiformis, or Corpus Caverno- sum Vagina, a spongy body, consisting of cellular substance, interwoven with a number of convoluted blood-vessels; it arises from the sides of the clitoris, passes on each side of the extremity of the vagina, is 64 LONDON DISSECTOR, OR not continued completely around it, but is lost on its posterior part. The Vagina is the canal leading from the vestibu- lum to the uterus. It lies betwixt the rectum and inferior surface of the urethra and bladder, and is connected to them by cellular membrane. It is com- posed of fibrous substance, partly ligamentous, and perhaps in part muscular; its inner surface is rugose, vascular, and occupied by mucous glands. On slitting it up, we see, at its posterior extremity, the Os Uteri, a rounded projection, with a transverse fissure. The Uterus, or Womb.—This organ is best seen from the cavity of the abdomen. It is situated betwixt the bladder and rectum, to both of which it is con- nected by reflections of peritoneum; it is of the shape of a pear, somewhat flattened, inwardly hollow, out- wardly of a whitish color, and of a firm consistence. The broad upper part of the womb is called the Fun- dus Uteri, the narrower part is named the neck, or Cervix Uteri, and the intermediate part its Body. The uterus has four ligaments, two on each side: 1. The Ligamentum teres, or Round Ligament. It is a round long cord, extending from the side of the fundus uteri, and passing through the abdominal ring, to be lost in the groin. The Ligamentum Latum, or Broad Ligament, is a broad fold of peritoneum, reflected from the body of the uterus, and connecting it on the sides of the pelvis. The uterus, together with its two broad ligaments, divides the pelvis into an anterior and posterior half; in the former of which is the bladder, and in the latter the rectum. The duplicature of the broad ligament encloses the Fallopian tube, ovary, and round li°-a- ment. The Fallopian Tubes are two. Each tube is con- tained in the upper part of the doubling of the broad ligament; it goes out from the fundus of the womb, and GUIDE TO ANATOMY 65 is a slender hollow tube: its outer end is curved down- wards and backwards, and terminates by a broad fringed extremity, termed Morsus Diaboli, or the Fimbria. This broad extremity is connected to the next pair of organs. The Ovaria are two small oval bodies, white and flat, situated by the sides of the uterus, and inclosed in the posterior fold of the broad ligament behind the Fallopian tube; each ovarium is connected to the fun- dus uteri by a short and round ligament. The Bladder is situated before the uterus, and is described in the preceding chapter. The Urethra is short in females, and near the bladder is surrounded by a spongy fleshy substance, is connected to the cartilaginous arch of the pubis by the ligamentum inferius vesicae. The Ureter descends from the kidneys over the psoas muscle; it runs for some space betwixt the blad* der and vagina, and at last perforates the bladder near the neck. The Rectum lies behind the uterus. See the pre- ceding chapter. To obtain a more satisfactory knowledge of the relative situation of the parts, the left side of the pelvis should be removed as in the male, and the parts exam- ined in that situation. 6* CHAPTER. IV. DISSECTION OF THE THIGH. SECTION. I. OF THE ANTERIOR PART OF THE THIGH. Of the Fascia, cutaneous vessels, and nerves. Beneath the integuments, you will find a strong fascia, or aponeurotic expansion, investing the whole thigh, called the Fascia Lata Femorls. . It consists partly of tendinous, partly of ligamentous fibres; sur- rounds and covers all the muscles, and sends septa or partitions between them:—It is very strong, smooth, and tendinous on the outer part of the thigh; but, on the anterior and inner part, it is very thin, and of a cellular texture. Consequently to demonstrate the whole extent of this fascia, it should be first exposed on the outside of the thigh, and the dissection continued carefully inwards on the fore-part, where it is with difficulty distinguished from the common cellular mem- brane. But, in removing the common integuments from the fore part of the thigh, it will be proper to attend to some parts which are situated above the fascia. 1. The Vena Saphena Major is seen running up on the inside of the knee and thigh. At first it lies very superficial, betwixt the skin and fascia. As it ascends, it is gradually enveloped by the fibres of the fascia, and then sinks beneath it to join the femoral GUIDE TO ANATOMY. 67 vein about an inch below Poupart's ligament, receiv- ing in its course, several cutaneous veins. 2. Immediately under the true skin, and more superficial than the veins or nerves, you may occa- sionally perceive the Lymphatic Vessels running, like lines of a whitish colour, to enter the inguinal glands: they are more numerous on the fore part, than on the outside of the thigh. 3. Several Cutaneous Nerves proceeding from the lumbar or anterior crural nerve, are seen ramifying above the fascia. The fascia may now be exposed distinctly. Observe how extensively it arises from the bones, tendons, and ligaments. On the anterior and superior part of the thigh, it arises from Poupart's ligament,* from the os pubis, the descending ramus of that bone, and the ascending ramus and tuberosity of the ischium;— behind, and on the outside, from the whole spine of the ilium, and from the sacro-sciatic ligaments. It receives a number of fibres from a muscle belonging to it, viz.: the tensor vaginae femoris, and from the tendon of the gluteus maximus;—passing down over the whole thigh, it is firmly fixed to the linea aspera, the condyles of the femur, and the patella, and is con- tinued over the knee, to be attached to the heads of the tibia and fibula, and form the fascia of the leg. On the upper and anterior part of the thigh, there is a slight hollow, where the great vessels descend under the crural arch. The fascia lata forms just on the outside and upper part of this, a crescent-shaped fold, called its semilunar edge, which is strongly con- nected to the crural arch, and sometimes contributes to the strangulation in femoral hernia. * At this part the fascia of the thigh is covered by a more superficial expansion, which lies over the lower part of the aponeurosis of the ex- ternal oblique muscle, completely covers the crural arch, and descends some little way beyond the bend of the thigh. It has been called the superficial fascia. 68 LONDON DISSECTOR, OR The fascia should now be dissected back; and, in lifting up the thicker part of it, which covers the outside of the thigh, you may observe that it is com- posed of two laminas of fibres, the fibres of the outer lamina run in circles round the thigh, while those on the inner, stronger, and more firmly connected, run longitudinally. The muscles on the anterior part of the thigh are nine in number. 1. The Tensor Vagina Femoris—Arises, by a narrow, tendinous, and fleshy origin, from the external part of the anterior superior spinous process of the os ilium: it forms a considerable fleshy belly, and ex- tending downwards and backwards, is Inserted into the inner lamina of the great fascia, where it covers the outside of the thigh, and a little below the trochanter major. This muscle, called also the Fascialis, serves to stretch the great fascia of the thigh, to assist in the abduction of the thigh, and in its rotation inwards. 2. The Sartorius—Arises, by short tendinous fibres, from the anterior superior spinous process of the os ilium, soon becomes fleshy, extends obliquely across the thigh, and passes behind the inner condyle. Inserted, by a broad and thin tendon, into the inner side of the tibia, immediately below its anterior tubercle. This muscle lies before the muscles of the thigh, crossing them like a strap about two inches in breadth, and serves to flex the leg obliquely inwards on the thigh, and to bend the thigh forwards. 3. The Rectus Femoris—Arises, by a strong tendon, from the inferior anterior spinous process of the os ilium; and, by another strong tendon, from the dorsum of that bone a little above the acetabulum and from the capsular ligament of the hip-joint. The two tendons soon unite, and send off a large belly, GUIDE TO ANATOMY. 69 which runs down over the anterior part of the thigh, forming a complete peniform muscle, and terminates in a flat but strong tendon, which is Inserted into the upper extremity of the patella; where a thin aponeurosis is sent from it over the fore part of that bone, to terminate on the strong- ligament which connects the lower part of the patella to the tibia, and is called Ligamentum Patellae. It serves to extend the leg on the thigh, to bend the thigh on the pelvis, and to bring the pelvis and thigh forwards on the leg. Under the rectus, and partly covered by it, there is a large mass of flesh, which, at first sight, appears to form but one muscle. It may, however, be divided into three; the separation on the external surface is not generally very evident, but, by following the course of the vessels which enter this mass, and by cutting through perhaps a few fibres externally, you will discover the line of separation, and this separa- tion, as you proceed deeper with your dissection, will become very distinct. The three muscles are named vastus externus, vastus internus, and cruraeus: at the upper and middle parts of the thigh, they may be separated very distinctly; but for two or three inches above the condyles, they are inseparably connected. 4. The Vastus Externus—Arises, tendinous and fleshy, from the anterior surface of the root of the trochanter major, from the outer edge of the linea aspera, its whole length—from the oblique line run- ning to the external condyle,—and from the whole external flat surface of the thigh bone. The fleshy fibres run obliquely forwards. Inserted into the external surface of the tendon of the rectus cruris, and into the side of the patella:— Part of its ends likewise in an aponeurosis which passes over the side of the knee to the leg, and is 70 LONDON DISSECTOR, OR firmly fixed to the head of the tibia, closely adhering to the capsule of the knee-joint. . It extends the leg, or brings the thigh forward upon the leg. 5. The Vastus Internus—Arises, tendinous and fleshy, from the fore-part of the root of the trochanter minor, from all the upper edge of the linea aspera from the oblique line running to the inner condyle, and from the whole internal surface of the thigh bone. Its fibres descend obliquely downwards and forwards. Inserted into the lateral surface of the tendon of the rectus cruris, and into the side of the patella; it also sends off an aponeurosis, which is continued down to the leg, and covers the inner part of the capsule of the knee. 6. The Cruraus, or Crulalis.—The principal part of this muscle is, lapped over, and concealed, by the bellies of the two vasti; and the small part, which is seen projecting between the anterior edges of those muscles, lies behind the belly of the rectus cruris. Arises, fleshy, from between the two trochanters of the os femoris, from all the fore-part of the bone, and from the outside as far back as the linea aspera; but from the inside of the bone it does not arise, for be- tween the forepart of the femur and the inner edge of the linea aspera, there is a smooth plain surface, of the breadth of an inch, extending nearly the whole length of the bone, from which no muscular fibres arise. Inserted into the posterior surface of the tendon of the^rectus, and the upper edge of the patella. 7. The Gracilis arises, by a broad thin tendon, from the lower half of that part of the os pubis which forms the symphysis, and from the inner edge of the descending ramus:—It soon grows fleshy, and forms a belly, which becoming narrower as it descends, termi- nates in a tendon, which passes behind the inner con- guide to anatomy. 71 dyle of the thigh bone, and is reflected forwards, to be Inserted in the inside of the tibia below the tendon of the sartorius, and above that of the semitendinosus. It serves to bring the thigh inwards and forwards, and assists in bending the leg. 8. The Pectinalis—Arises, fleshy from that ridge of the os pubis which forms the brim of the pelvis, and from the concave surface beiow the ridge. It forms a'thick flat belly, Inserted, by a flat tendon into the linea aspera, im- mediately below the less trochanter. Its origin lies on the inside of the belly of the psoas magnus, where that muscle slides over the brim of the pelvis, and on the outside of the origin of the adductor longus. It bends the thigh forwards, moves it inwards, and performs rotation, by turning the toes outwards. 9. The Triceps Adductor Femoris consists of three distinct muscles, which, passing from the pelvis to the thigh, lie in different layers upon one another, and have nearly the same action. (1.) The Adductor Longus, or Primus—Arises, by a short strong tendon, from the upper and fore part of the os pubis, near its symphysis;—forms a large triangular belly, which, as it descends, becomes broad- er, but less thick. Inserted, tendinous, into the middle part of the linea aspera, occupying rather more than one-third of its length. (2.) The Adductor Brevis, or Secundus—Ari- ses, fleshy and tendinous, from the os pubis, between the lower part of the symphysis pubis, and the fora- men thyroideum:—it forms a fleshy belly, Inserted, tendinous, into the upper third of the linea aspera, that is, from the root of the less trochanter to the commencement of the insertion of the next muscle. 72 LONDON DISSECTOR, OR (3.) The Adductor MAGNUs,or Tertius.—Arises, principally fleshy, from the lower part of the body and the descending ramus of the os pubis, and from the as- cending ramus of the ischium, as far as the tuberosity of that bone. The fibres run outwards and down- wards, having various degrees of obliquity. Inserted, fleshy, into the whole length of the linea aspera, into the oblique ridge above the internal con- dyle of the os femoris, and, by a roundish long tendon, into the upper part of that condyle. This large muscle arises behind and below the two other adductors; it forms a flat partition betwixt the muscles on the fore and back parts of the thigh. All these muscles serve to approximate the thighs to each other, and to roll them outwards. The two anterior heads will bend the thigh; the posterior will extend it, if it be bent forwards. SECTION II. OF the posterior part of the thigh. Of the fascia. Above that part of the great fascia which invests the thigh posteriorly, we meet with several cutaneous nerves. They are of little importance, taking their origin either from the lumbar nerves, and passing over the spine of the os ilium, or from the great sciatic nerve, and emerging from the lower margin of the gluteus maximus. Other twigs come from the sacral nerves, and from the sciatic in its course down the thigh. The muscles situated on the posterior part of the thigh are eleven. GUIDE TO ANATOMY. 73 On removing the integuments and fascia from the hip, we expose 1. The Gluteus Maximus.—It arises, fleshy, from the posterior third of the spine of the os ilium, from the whole lateral surface of the sacrum, below the posterior spinous process of the ilium; from the back part of the posterior or inferior sacro-sciatic liga- ment,* over which the edge of this muscle hangs in a folded manner, and from the lateral surface of the os coccygis. The fleshy fibres proceed obliquely forwards and downwards, forming a thick broad coarse muscle, and converging gradually, terminate in a strong flat tendon. This tendon slides over the posterior part of the trochanter major; sends off a great quantity of tendi- nous fibres, to be inseparably joined to the fascia lata of the thigh; and is Inserted, into a rough surface at the upper and outer part of the linea aspera, immediately below the tro- chanter major; also very extensively into the fascia lata, which covers the former insertion. This muscle is quite superficial, covering all the other muscles which are situated on the back part of the hip, covering also the tuber ischii, and the ten- dons of the muscles which arise from that projection. It is used to restore the thigh, after it has been bent;—to rotate it outwards; to extend the pelvis on the thigh, and maintain it in that position in the erect posture of the body. * The sacro-sciatic ligaments are two in number; they pass between the ischium and sacrum. 1. The external or inferior, or posterior, sacro-sciatic ligament arises from the external edge of the transverse processes of the sacrum, descends obliquely, and is inserted into the tuberosity of the os ischium. 2. The internal, or anterior, arises from the edge of the transverse processes of the sacrum, and of the os coccygis; it passes across on the inside of the external, and is inserted into the point of the spinous process of the ischium. 7 74 LONDON DISSECTOR, OR By raising this muscle from its origin, we expose 2. The Gluteus Medius—Arises, fleshy, from all the outer edge of the spine of the os ilium, as far as the posterior tuberosity; from the dorsum of the bone, between the spine, and semicircular ridge (which passes from the anterior superior spinous pro- cess to the ischiatic notch;) also from the rough surface which extends from the anterior superior to the ante- rior inferior spinous process, and from the inside of a fascia which covers its anterior part. The fibres con- verge into a strong and broad tendon, which is Inserted into the upper and outer part of the great trochanter. The posterior part of the belly, and the tendon of this muscle, are concealed by the gluteus maximus, but the anterior and largest part is superficial, being covered only by a fascia. Having lifted up this muscle from its origin, you will discover, 3. The Gluteus Minimus.—It is entirely con- cealed by the gluteus medius, and between their ten- dons there is a bursa mucosa. It arises, fleshy, from the semicircular ridge of the ilium, and from the dorsum of the bone below the ridge within half an inch of the acetabulum. Its fibres run in a radiated direction towards a strong tendon, wThich is Inserted into the anterior and superior part of the great trochanter. 4. The Pyriformis—Arises, within the pelvis, by three tendinous and fleshy origins, from the second, third, and fourth false vertebras or divisions of the sacrum. It forms a thick belly, which passes out of the pelvis, below the niche in the posterior part of the ilium, (from which it receives a few fleshy fibres ) and above the superior sacro-sciatic ligament. GUIDE TO ANATOMY. 75 Inserted, by a roundish tendon, into the uppermost part of the cavity at the root of the trochanter major. Like the other small muscles of the hip, it is entirely concealed by the gluteus maximus; its belly lies behind and below the gluteus medius, but is not at all covered by it, and above the superior gemellus. Sometimes the pyriformis is divided into two distinct muscles, by a branch of the great sciatic nerve. It moves the thigh a little upwards, and rolls it outwards. 5. The Gemini consist of two heads which are distinct muscles. (1.) The superior arises from the back part of the spinous process of the ischium. (2.) The inferior from the upper part of the tube- rosity of the os ischium, and the anterior surface of the posterior sacro-sciatic ligament. Inserted, tendinous and fleshy, into the cavity at the root of the trochanter major, immediately below the insertion of the pyriformis, and above the insertion of the obturator externus. They lie below the pyriformis, and above the quad- ratus femoris; they are united by a tendinous and fleshy expansion, which forms a purse or sheath for the tendon of the obturator internus. They serve to roll the thigh outwards, and to bind down the tendon of the obturator internus. Lying between the bellies of the gemini, you will perceive, 6. The Obturator Internus, once called mar- supialis.—It arises, tendinous and fleshy, from more than one-half of the internal circumference of the fora- men thyrpideum, and from the inner surface of the ligament which fills up that hole; its inside is covered by a portion of the levator ani; it forms a flattened tendon, which passes out of the pelvis in a sinuosity 76 LONDON DISSECTOR, OR betwixt the spinous process and tuberosity of the ischium; and, becoming rounder, is Inserted into the pit at the root of the trochanter major. Its origin lying within the pelvis, cannot be exposed till the contents of that cavity are removed. 7. The Quadratus femoris—Arises, tendinous and fleshy, from an oblique ridge, which descends from the inferior edge of the acetabulum along the body of the ischium, between its tuberosity and the foramen thyroideum: its fibres run transversely, to be Inserted, fleshy, into a rough ridge on the back part of the femur, extending from the root of the greater trochanter to the root of the less. Situation: It is concealed by the gluteus maximus, lies below the inferior head of the gemini, and above the superior fibres of the adductor magnus; its origin is in contact with the origin of the hamstring muscles. It rolls the thigh outwards. On lifting up the quadratus femoris from its origin, and leaving it supended by its insertion, you discover, running in the same direction, the strong tendon of, 8. The Obturator Externus.—This muscle arises, fleshy, from almost the whole circumference of the foramen thyroideum, and from the external surface of the obturator ligament; its fibres pass outwards through the notch placed between the inferior margin of the acetabulum and the tuberosity of the ischium, wind around the cervix of the os femoris, adhering to the capsular ligament, and terminate in a strong tendon, which is Inserted into the lowermost part of the cavity, at the root of the trochanter major, immediately below the insertion of the inferior head of the gemini. This muscle cannot be distinctly seen, until all the muscles which run from the pelvis to the upper part GUIDE TO ANATOMY. 77 of the thigh are removed, both on the fore and back part. It rolls the thigh bone obliquely outwards. 9. The Biceps Flexor Cruris—Arises by two dis- tinct heads; the first, called the Long Head, arises in common with the semitendinosus, by a short tendon, from the outer part of the tuberosity of the ischium, and, descending, forms a thick fleshy belly. The second, termed the Short Head, arises, tendinous and fleshy, from the linea aspera, immediately below the insertion of the gluteus maximus; and from the oblique ridge running to the outer condyle, where it is con- nected with the fibres of the vastus externus. The two heads unite at an acute angle, a little above the external condyle, and terminate in a strong tendon which is Inserted into a rough surface on the outside of the head of the fibula. The biceps cruris, as it is called, bends the leg, and particularly by means of its short head twists the leg outwards in the bent state of the knee. 10. The Semitendinosus—Arises, tendinous, in common with the long head of the biceps, from the tu- berosity of the ischium; it has also some fleshy fibres arising'from that projection more outwardly:—as it de- scends, it arises, for two or three inches, fleshy, from the inside of the tendon of the biceps; forms a thick belly, and terminates at the distance of three or four inches from the knee in a long round tendon, which be- coming flat, passes behind the head of the tibia, and is reflected forwards, to be Inserted into the anterior angle of that bone, some little way below its tubercle, and below the tendon of the gracilis. The belly of this muscle is intersected, about its middle, by a narrow transverse tendinous line. It bends the leg backwards, and slightly inwards. 7# 78 LONDON DISSECTOR, OR 11. The Semimembranosus—Arises, by a strong round tendon, from the upper and outer part of the tu- berosity of the ischium; the tendon, soon becoming broader, sends off obliquely a fleshy belly; this muscle is continued, fleshy, much lower down than that last described. The fleshy fibres terminate obliquely in another flat tendon, which passes behind the inner con- dyle, sends off a thin aponeurotic expansion under the inner head of the gastrocnemius, to cover the posterior part of the capsule of the knee-joint, and to be affixed to the external condyle: the tendon then becoming rounder, is Inserted into the inner and back part of the head of the tibia. This is a semi-penniform muscle; and serves to bend the leg backwards. The last two muscles properly form the inner ham- string; but some enumerate among the tendons of the inner hamstring, the sartorius and gracilis. CHAPTER. V. DISSECTION OF THE LEG AND FOOT. SECTION I. OF THE FORE PART OF THE LEG AND FOOT. On dissecting off the integuments from the fore part of the leg, we find a strong fascia continued from the thigh; it adheres firmly to every projecting point of bone, to the head and spine of the tibia, and to the fibula; it grows thinner towards the lower part of the leg; but where it passes over the ankle, it again be- - comes very strong by its adhesions to the outer and GUIDE TO ANATOMY. 79 inner ankle, and forms a strong Annular or Trans- verse Ligament, which binds down the tendons, and is evidently but a thicker and stronger part of the general fascia of the leg. This annular ligament seems to consist of two distinct cross bands, which, going from the point of the outer ankle and neighboring part of the os calcis, are fixed to the malleolus internus, and to the inside of the os naviculare. Before removing the fascia, it will be proper to remark, 1. The vena saphena major, running upon the inside of the tibia, and accompanied by a cutaneous nerve, the nervus saphenus. 2. Several cutaneous nerves, branching on the outer and fore-part of the leg and foot, and derived from the nervus peroneus. The fascia should then be dissected off; and, in doing this, remark, that it is firmly attached to the bones, and also to the bellies of the muscles at the upper part of the leg, so that their surfaces appear ragged, where the fibres are separated which arose from the inside of the fascia: Remark also, that it sends down processes between the muscles; these are named intermuscular ligaments, or tendons; they give origin to the fibres of all the muscles betwixt which they pass, connecting them together inseparably, so that the dissection is difficult, and has a rough appear- ance. MUSCLES SITUATED ON THE FORE PART AND OUT- SIDE OF THE LEG. These are six in number. 1. The Tibialis Anticus—Arises, principally fleshy, from the exterior surface of the tibia, from its anterior angle or spine, and from nearly half of the interosseous ligament; from these surfaces it continues 80 LONDON DISSECTOR, OR to arise down two-thirds of the length of the bone; also from the inner surface of the fascia of the leg, and from the intermuscular ligaments. The fleshy fibres descend obliquely, and terminate in a strong tendon, which crosses from the outside to the fore-part of the tibia, passes through a distinct ring of the annular ligament near the inner ankle, runs over the astragulus and os naviculare, and is Inserted into the upper and inner part of the os cuneiforme internum, and the base of the metatarsal bone supporting the great toe. It draws the foot upwards and inwards; or, in other words, bends the ankle-joint. 2. Extensor Longus Digitorum Pedis—Arises, tendinous and fleshy, from the outer part of the head of the tibia; from the head of the fibula; from the anterior angle of the fibula almost its whole length; and from part of the smooth surface between the anterior and internal angles; from a small part of the interosseous ligament; from the fascia and intermus- cular ligaments. Below the middle of the leg, it splits into four round tendons, which pass under the annular ligament, become flattened, and are Inserted jnto the root of the first phalanx of each of the four small toes, and expanded over the upper side of the toes as far as the root of the last phalanx. This muscle also runs entirely superficial; it lies between the tibialis anticus and peroneous longus, being firmly connected to them by intermuscular liga- ments; but, at the lower part of the leg, it is separated from the tibialis anticus by the extensor pollicis lon- gus, and from the peroneus longus by the peroneus brevis. It extends all the joints of the four small toes; and bends the ankle joint. GUIDE TO ANATOMY. 81 3. Peroneus Tertius—Arises, fleshy, from the anterior angle of the fibula, and from part of the smooth surface between the anterior and internal angles, extending from below the middle of the bone downwards to near its inferior extremity;—sends its fleshy fibres forwards to a tendon, which passes under the annular ligament in the same sheath as the extensor digitorum longus, and is Inserted into the base of the metatarsal bone that supports the little toe. The belly of this muscle is inseparably connected with the extensor longus digitorum, and is properly its outer part; it lies between that muscle and the peroneus brevis. The tendon runs down on the out- side of that tendon of the extensor longus digitorum which goes to the little toe. The whole of the muscle is superficial. 4. Extensor Proprius Pollicis Pedis—Arises, tendinous and fleshy, from part of the smooth surface between the anterior and internal angles of the fibula, and from the neighbouring part of the interosseous ligament, extending from some distance below the head of the bone to near its inferior extremity; a few fibres also arise from the lower part of the tibia; the fibres pass Obliquely downwards and forwards into a tendon, which, inclining inwards, passes over the fore-part of the astragalus and os naviculare, and over the junction of the os cuneiforme internum and os cuneiforme medium, to be Inserted into the base of the first and of the second phalanges of the great toe. This is a very slender muscle; its belly is concealed between the tibialis anticus and extensor digitorum longus, and cannot be seen till those muscles are separated from one another;—the tendon is superficial, running between the tendons of those two muscles. 82 LONDON DISSECTOR, OR It serves to extend the great toe; and to bend the ankle. The Peroneus Longus—Arises, tendinous and fleshy, from the fore-part and outside of the head of the fibula, and from the adjacent part of the tibia, from the external angle of the fibula, and from the smooth surface between the anterior and external angles as far down as one-third of the length of the bone from its lower extremity; also from the fascia of the leg and intermuscular ligaments. The fibres run obliquely outwards into a tendon, which passes behind the outer ankle, through a grove in the lower extremity of the fibula: it is then reflected forwards through a superficial fossa in the outside of the os calcis, passes over a projection, runs in a groove in the os cuboides, passes over the muscles in the sole of the foot, and is Inserted, tendinous into the outside of the base of the metatarsal bone that sustains the great toe, and into the os cuneiforme internum. The tendon of this muscle is superficial where it crosses the outside of the os calcis, but in the sole of the foot it is concealed by the muscles situated there, and will be seen in the dissection of that part. It extends the ankle-joint, and turns the sole of the foot outwards. 6. The Peroneus Brevis—Arises, fleshy from the outer edge of the anterior angle of the fibula, and from part of the smooth surface behind that angle; beginning about one-third down the bone, and con- tinuing its adhesion to near the ankle; from the fascia of the leg, and from the intermuscular ligaments:__ The fibres run obliquely towards a tendon, which passes through the groove, of the fibula behind the outer ankle, being there inclosed in the same ligament with the tendon of the peroneus longus, then through a separate groove on the outside of the os calcis, and°is GUIDE TO ANATOMY. 83 Inserted into the external part of the base of the metatarsal bone that sustains the little toe. This muscle arises between the extensor longus digitorum and peroneus longus; its belly is overlapped, and concealed by the belly of the peroneus longus; but, as it continues fleshy lower down, it is seen, above the ankle, projecting on each side of the tendon of that muscle:—Below, it is separated from the peroneus tertius by that projection of the fibula which forms the outer ankle, and which is only covered by the common integuments. It has the same use as that of the peroneus longus. MUSCLES ON THE UPPER PART OF THE FOOT. Only one muscle is found in this situation. Extensor Brevis Digitorum Pedis—Arises, fleshy and tendinous, from the anterior and upper part of the os calcis, from the os cuboides, and from the astragalus; forms a fleshy belly, divisible into four portions; these send off four slender tendons, which are Inserted, the first tendon, into the first phalanx of the great toe; and the other three into all the small toes, except the little one, uniting with the tendons of the extensor digitorum longus, and being attached to the upper convex surface of all the phalanges. The belly of this muscle lies under the tendons of the extensor digitorum longus and peroneus brevis; it is not, however, concealed, hut is seen projecting behind and betwixt these tendons; it assists in form- ing the tendinous membrane which invests the upper surface of all the phalanges of the toes. Its use is to extend the toes. It is sometimes described as two muscles, the ex- tensor brevis pollicis pedis, and extensor brevis digi- torum pedis. 84 LONDON DISSECTOR, OR SECTION II. DISSECTION OF THE MUSCLES ON THE POSTERIOR PART OF THE LEG. The fascia investing the posterior part of the leg, is much thinner and less strong than that on the fore part. The muscles to be described are seven in number. 1. The Gastrocnemius Externus, or Gemellus, Arises, by two distinct heads:—The first, or Internal Head, arises, tendinous, from the upper and back part of the internal condyle of the os femoris, and fleshy from the oblique ridge over that condyle. The sec- ond, or External Head, arises, in the same manner, from the external condyle. Each of the heads forms a fleshy belly, the fibres of which are oblique, passing from a tendinous expansion Avhich covers the posterior surface of the muscle, to another tendinous expansion which covers the anterior surface, or that surface which lies nearest the bones. The two bellies, of which the internal is much the larger, are separated by a considerable triangular space, in which the pop- liteal blood-vessels and nerves pass to the leg, but de- scending, they unite a little below the knee-joint in a middle tendinous line, and below the middle of the tibia send off a broad flat tendon, which unites a little above the ankle with the tendon of the soleus. Reflect the two heads of the gastrocnemius from the femoral condyles, and you will then expose, 2. The Soleus, or Gastrocnemius Internus__ which arises, by two origins or heads. The External which is by far the larger, arises, principally fleshy' from the posterior surface of the head of the fibula and from the external angle of that bone, for two-thirds of its length, immediately behind the peroneus longus The internal head, arises, fleshy, from an oblique ridge guide to anatomy. 85 on the posterior surface of the tibia, just below the pop- liteus, and from the inner angle of that bone, during the middle third of its length. The two heads which are at first separated by the posterior tibial artery and nerve, unite immediately, forming a large belly, which, covered by the tendon of the gastrocnemius, is continu- ed, fleshy, to within a short distance of the ankle-joint; a little above which, the tendons of the gastrocnemius and soleus unite, and form a strong round tendon, named the Tendo Achillis, which slides over the upper and posterior part of the os calcis, where it is furnished with a small bursa mucosa, to be Inserted into a rough surface on the back-part of that bone. It serves to elevate the os calcis, and thereby to raise the whole body, as a preparatory measure to its being carried forward in progression; to carry the leg back- wards on the foot when that is fixed; the gastrocnemi- us, from its origin in the thigh, also bends the leg on the thigh. By detaching the heads of the gastrocnemius, you will expose, 3. The Plantaris.—This muscle arises, fleshy, from the upper part of the external condyle of the fe- mur and its oblique ridge, forms a pyramidial belly about three inches in length, which adheres to the capsule of the knee-joint, runs over the popliteus, and terminates in a long, slender, thin tendon. This ten- don passes obliquely inwards over the inner head of the soleus, and under the gastrocnemius; emerges from between those two muscles, where their tendons unite, and then runs down by the inside of the tendo Achillis, to be Inserted into the posterior part of the os calcis, on the inside of the insertion of the tendo Achillis, and somewhat before it. 8 86 LONDON DISSECTOR, OR The use of this muscle is not well understood: some say that it serves to tuck up the capsule in the great bendings of the knee-joint; others, that it assists the gastrocnemii. 4, The Popliteus—Arises, within the capsular ligament of the knee, by a round tendon, from a deep pit or hollow on the outer side of the external con- dyle; adheres to the posterior and outer surface of the external semilunar cartilage; passes, within the cavity of the joint, over the side of the condyle to its back part; perforates the capsular ligament, and forms a fleshy belly, which runs obliquely inwards, being covered by a thin tendinous fascia, to be Inserted, broad, thin and fleshy, into an oblique ridge on the posterior surface of the tibia, a little below its head, and into the triangular space above that ridge. This muscle is concealed entirely by the gastroc- nemius, it lies above the inner head of the soleus; and is more deeply situated than, the plantaris, which crosses over it. It bends the leg, and when bent, rolls it, so as to turn the toes inwards. The belly of the soleus should now be lifted, in order to expose the deeply-seated muscles. A strong membranous fascia is seen connecting and investing them, which is to be removed. 5. The Flexor Longus Digitorum Pedis Per- forans—Arises, fleshy, from the posterior flattened surface of the tibia, between its internal and external angles, below the attachment of the soleus, and con- tinues to arise from the bone to within two or three inches of the ankle; the fibres pass obliquely into a tendon which is situated on the posterior edge of the muscle. This tendon runs behind the inner ankle in a groove of the tibia; passes under a strong ligament which goes from the inner ankle to the os calcis, and guide to anatomy. 87 having received a strong tendinous slip from the flexor pollicis longus, divides about the middle of the sole of the foot, into four tendons, which pass through the slits in the tendons of the flexor digitorum brevis, and are Inserted into the extremity of the last joint of the four toes. This muscle lies on the inside of the flexor longus pollicis, and serves to bend the last joint of the toes, and to assist in extending the foot. 6. Flexor Longus Pollicis Pedis—Arises, fleshy, from the posterior flat surface of the fibula, continuing its origin from some distance below the head of the bone to within an inch of the ankle. The fleshy fibres terminate in a tendon, which passes behind the inner ankle through a groove in the tibia; next through a groove in the astragalus, crosses in the sole of the foot the tendon of the flexor longus digitorum, to which it gives a slip of tendon; passes between the two sesamoid bones, and is Inserted into the last phalanx of the great toe. Its office is to bend the last joint of the great toe, and, being connected by a cross slip to the flexor digitorum communis, to assist in bending the other toes. 7. The Tibialis Posticus—Arises, fleshy from the posterior surface of both the tibia and fibula, imme- diately below the upper articulation of these bones with each other; from the whole of the interosseous ligament; from the angles of the bones to which that ligament is attached; and from the flat surface of the fibula behind its internal angle for more than two-thirds of its length. The fibres run obliquely towards a middle tendon, which, becoming round, passes behind the inner ankle through a groove in the tibia. Inserted into the upper and inner part of the os naviculare, being further continued through a groove in 88 LONDON DISSECTOR, OR that bone to the internal and external cuneiform bones: it also sends some tendinous filaments to the os calcis, the os cuboides, and the bases of the metatarsal bones supporting the second and middle toe. This muscle may be said to arise from the tibia and fibula before the interosseous ligament, as its fibres fill up a perforation in the upper extremity of that ligament. The belly is concealed at its lower part by the flexor longus digitorum and flexor pollicis, and cannot be seen till those muscles are separated. I1 extends the foot, and turns it inwards. SECTION III. DISSECTION OF THE SOLE OF THE FOOT. The cuticle on the sole of the foot from constant pres- sure is very much thickened; betwixt the integuments and plantar aponeurosis, we find a tough granulated fat, which adheres firmly to the aponeurosis, and is dissected off with difficulty. Aponeurosis, or Fascia Plantaris, is a very strong, tendinous expansion, which arises from the projecting extremity of the os calcis, and passes to the root of the toes, covering and supporting the muscles of the sole of the foot. Where it arises from the heel, it is thick, but narrow; as it runs over the foot, it becomes broad- er and thinner; and it is fixed to the the head of each of the metatarsal bones by a bifurcated extremity,which by its splitting, leaves room for the tendons, &c. to pass. It seems divided into three portions, which are con- nected by strong fasiculi of tendinous fibres; and fibres are sent down, forming perpendicular partitions anion"' the muscles, and separating them into three classes; guide to anatomy. 89 1. The middle portion, which is the largest, and under which are contained the flexor brevis digitorum, and the tendons of the flexor longus and lumbricales. 2. The external lateral portion, which covers the muscles of the little toe. 3. The internal lateral portion concealing the mus- cles of the great toe. On removing the plantar aponeurosis, the first order of muscles in the sole of the foot is exposed: it consists of three muscles. Abductor Pollicis, situated on the side of the great toe. Abductor Minimi Digiti, on the side of the little toe. Flexor Brevis Digitorum Pedis, the mass in the mid- dle, situated between the two abductors. 1. Abductor Pollicis Pedis—Arises, tendinous and fleshy, from the lower and inner part of the os calcis; from a ligament which extends from the os cal- cis to the os naviculare; from the inside of the os navi- culare and cuneiforme internum; and from the fascia plantaris. Inserted, tendinous, into the internal sesamoid bone, and base of the first phalanx of the great toe. It moves the great toe from the rest. 2. Abductor Minimi Digiti Pedis—Arises, tendi- nous and fleshy, from the outer side of the os calcis; and from a strong ligament, which passes from the os calcis to the metatarsal bone of the little toe; also from the fascia plantaris. Inserted, tendinous, into the base of the metatarsal bone of the little toe, and into the outside of the base of the first phalanx. This muscle can frequently be divided distinctly into two portions. It moves the little toe from the rest. 3. Flexor Brevis Digitorum Pedis Perfora- TUS_Arises, fleshy, from the anterior and inferior part 8* 90 LONDON DISSECTOR, OR of the protuberance of the os calcis, and from the inner surface of the fascia plantaris; also from the ten- dinous partitions betwixt it and the abductors of the great and little toe:—it forms a thick fleshy belly, and sends off four tendons, which split for the passage of the tendons of the flexor longus digitorum, and are Inserted into the second phalanx of the four lesser toes. The tendon of the little toe is often wanting. Its use is to bend the second joint of the toes. The muscles of this order are quite superficial, being only covered by the fascia plantaris. These being removed, or lifted from their origins, and left hanging by their tendons, the second order is exposed. 1. The tendon of the Flexor longus digitorum pedis is seen coming from the inside of the os calcis; and, having reached the middle of the foot, dividing into its four tendons, which pass through the slits of the ten- dons of the flexor digitorum brevis, and are inserted into the base of the last phalanx of the four toes. 2. The tendon of the Flexor longus pollicis is seen crossing under* the tendon of the flexor longus digito- rum, and, having given to it a short slip of tendon, pro- ceeding between the two sesamoid bones to the base of the last phalanx of the great toe. 3. Flexor Digitorum Accessorius, or Massa Carnea Jacobi Svlvii—Arises, fleshy, from the sinu- osity at the inside of the os calcis, and, tendinous, from that bone more outwardly:—it forms a belly of a square form. Inserted into the outside of the tendon of the flexor digitorum longus, just at its division. It assists the flexor longus. * In the erect posture, it crosses above, lying nearer to the metatarsal bones than that tendon; but in the description, the sole of the foot is sun- posed to be placed uppermost. l guide to anatomy. 91 4. Lumbricales Pedis—Arise, by four tendinous and fleshy beginnings, from the tendons of the flexor longus digitorum, immediately after their division. Inserted, by four slender tendons, into the inside of the first phalanx of the four small toes, and into the tendinous expansion that is sent from the extensors to cover the upper part of the toes. They serve to promote the flexion of the toes, and to draw them inwards. The second order of muscles being removed, we expose the third order. 1. Flexor Brevis Pollicis Pedis.—It arises, ten- dinous, from the under and fore part of the os calcis, where it joins with the os cuboides: also from the os cuneiforme externum; it forms a fleshy belly, which is connected inseparably to the abductor and adductor pollicis. Inserted, by two tendons, into the external and inter- nal sesamoid bones; and it is continued on into the base of the first phalanx of the great toe. It bends the first joint of the great toe. 2. Adductor Pollicis Pedis—Arises, tendinous and fleshy, from a strong ligament which extends from the os calcis to the os cuboides, and from the roots of the second, third, and fourth metatarsal bones; it forms a fleshy belly, which seems at its beginning divided into two portions. Inserted, tendinous, into the external sesamoid bone, and root of the matatarsal bone of the great toe. Used to bring this toe nearer the rest. 3. Flexor Brevis Minimi Digiti Pedis—Arises, tendinous and fleshy, from the os cuboides, and from the root of the metatarsal bone of the little toe. Inserted, tendinous, into the base of the first pha- lanx of the little toe, and into the anterior extremity of the metatarsal bone. Used to bend this toe. Transversalis Pedis—Arises, tendinous, from 92 LONDON DISSECTOR, OR - the anterior extremity of the metatarsal bone sup- porting the little toe; becoming fleshy, it crosses over the anterior extremities of the other metatarsal bones. Inserted, tendinous, into the anterior extremity of the metatarsal bone of the great toe, and into the internal sesamoid bone, adhering to the adductor pollicis. It contracts the foot, by approximating the toes. Ranging with this order of muscles, we may also observe a broad, strong ligament, passing from the anterior sinuosity of the os calcis over the surface of the os cuboides, and the tendon of the tibialis pos- ticus, dividing into numerous tendinous slips, to be- inserted into the bones of the tarsus. Having removed the muscles last described, we expose the fourth and last order. The tendon of the peroneus longus is seen passing along a groove in the os cuboides, and crossing the tarsal bones, to be inserted into the base of the meta- tarsal bone of the great toe, and into the internal cuneiform and second metatarsal bones. Interossei Pedis Interni, are three in number, situated in the sole of the foot. They arise, tendi- nous and fleshy, from between the metatarsal bones of the four small toes, and are Inserted, tendinous, into the inside of the base of the first phalanx of each of the three small toes. Used to move the three smaller toes inwards towards the great toe. Interossei Pedis Externi, are four in number, larger than the internal interossei, and situated on the back of the foot; they are bicipites, or arise by two slips. Arise, tendinous and fleshy, between the metatarsal bones of all the toes. Inserted, the first, abductor indicis pedis, into the inside of the base of the first phalanx of the fore-toe; guide to anatomy. 93 the second, adductor indicis pedis, into the outside of the same toe;—the third, adductor medii digiti pedis, into the outside of the middle toe;—the fourth, adduc- tor tertii digiti pedis, into the outside of the third toe. Used to separate the toes. CHAPTER VI. DISSECTION OF THE UPPER PART OF THE BODY. SECTION I. THE EXTERNAL PARTS OF THE HEAD. The integuments of the head are thick, and covered with hair, having beneath the cutis a condensed cel- lular substance, which is closely connected with the epicranium, or expanded tendon of the occipito-fronta- lis, and renders the dissection of that muscle difficult. The only muscle, which properly belongs to the hairy scalp, is a single broad digastric muscle, viz: Occipito-frontalis. It arises fleshy and tendinous, from the transverse ridge of the occipital bone, as far forward as the mastoid process; forming a broad thin tendon, which covers the whole upper part of the cranium; it is Inserted, fleshy, on each side, into the orbicularis palpebrarum, the skin of the eye-brows, and the internal angular process of the os frontis and os nasi. The tendon of this muscle adhering firmly to the skin, and but loosely to the pericranium, enables it to 94 LONDON DISSECTOR, OR raise the eye-brows, and corrugate the skin of the forehead. The muscles of the external ear are not always so distinct as to admit of a clear demonstration. (1) Attollens Aurem, or the Superior auris— Arises from the tendon of the occipito-frontalis, and from the aponeurosis of the temporal muscle. Inserted into the upper part of the root of the car- tilage of the ear, opposite to the antihelix. Used to draw the ear upwards. (2.) Anterior Auris—Arises, thin and membra- nous, from the posterior part of the zygomatic process of the temporal bone. Inserted into a small eminence on the back of the helix, opposite to the concha. Use: To draw the eminence a little forwards and upwards. (3.) The Retrahentes Auris, or Posterior auris— Arises by two or three distinct slips, from the external and posterior part of the mastoid process, immedi- ately above the insertion of the sterno-cleido mastoi- deus. Inserted into that back part of the ear which is opposite to the septum, dividing the scapha and concha. Use: To draw the ear backhand stretch the concha. The proper muscles of the ear are next to be described; but the student must not expect to meet with them distinctly marked in every subject; in general they are very confused and indistinct. (1.) Helicis Major—Arises from the upper and acute part of the helix, anteriorly. Inserted into its cartilage, a little above the tragus. Use: To depress the part from which it arises. (2.) Helicis Minor—Arises from the inferior and anterior part of the helix. GUIDE TO ANATOMY. 95 Inserted into the crus of the helix, near the fissure in the cartilage opposite to the concha. Use: To contract the fissure. (3.) Tragicus—Arises from the middle and outer part of the concha, at the root of the tragus, along which it runs. Inserted into the point of the tragus. Use: To pull the point of the tragus a little forwards. (4.) Antitragicus—Arises from the internal part of the cartilage that supports the antitragus; and, running upwards, is Inserted into the tip of the antitragus as far as the inferior part of the antihelix. Use: To turn the tip of the antitragus a little out- wards, and depress the extremity of the antihelix towards it. (5.) Transversus Auris—Arises from the promi- nent part of the concha on the dorsum of the ear. Inserted opposite to the outer side of the antihelix. Use: It draws the parts to which it is connected towards each other, and stretches the scapha and concha. The muscles of the internal ear are situated within the temporal bone itself; they are very small, and can be seen only when the internal parts of the organ of hearing are prepared; but their description is necessary to complete the history of the muscles. (1.) Laxator Tympani—Arises, by a small origin, from the spinous process of the sphenoid bone, and the side of the Eustachian tube. It runs backwards, and a little upwards, along with the nerve called Chorda Tympani, in a fissure of the glenoid or articu- lar cavity of the os temporis. Inserted into the long process of the malleus. Use: To draw the malleus obliquely forwards to- wards its origin, and consequently the membrana 96 LONDON DISSECTOR, OR tympani by which that membrane is made less con- cave, or is relaxed. (2.) Tensor Tympani—Arises, by a small fleshy beginning, from the cartilaginous extremity of the Eustachian tube, just where it begins to be covered by the pars petrosa and spinous process of the sphe- noid bone, and runs along the bony half-canal of the typanum, where it is invested by a membranous vagina. Inserted into the neck of the malleus, above the small process, and even as far as the handle. Use: To draw the malleus and membrana tympani towards the pars petrosa, and thus render the mem- brane more concave and tense. A third, but much less distinct muscle, has been described, under the name of External or Superior Muscle of the malleus. It arises from the internal, superior, and posterior part of the meatus externus, to be fixed by a small tendon to the neck of the malleus. 3. Stapedius is a short and thick muscle. It arises from, and lies' concealed within, the small bony pyramid at the bottom of the tympanum; the cavity which it fills is near the bony canal for the portio dura of the auditory nerve. It terminates in a small tendon, which passing out of the cavity through the small hole in the apex of the pyramid, runs forwards, and is Inserted into the neck of the stapes, on the sides of the longest and most crooked leg of that bone. Use: To draw the stapes obliquely upwards to- wards the pyramid, by which the posterior part of its base is moved inwards, and the anterior part outwards. GUIDE TO ANATOMY. 97 SECTION II. OF THE CONTENTS OF THE CRANIUM, OR THE BRAIN AND ITS MEMBRANES. A transverse incision, extending from ear to ear over the crown of the head, being made through the tendon of the occipito-frontalis, the two flaps may, with facility, be inverted on the face and neck. Remove the superior part of the cranium by a saw directed anteriorly through the frontal bone above the orbitar process, and posteriorly.as low as the trans- verse ridge of the occipital bone. When the superior part of the cranium, commonly called the Calvarium, or skull-cap, has been torn off, for which considerable force is requisite, you expose the Dura Mater, a firm, compact, and whitish mem- brane, somewhat shining, rough on its outer surface, from the rupture of vessels which connected it to the cranium, and covered with bloody spots in conse- quence of the blood effused from these ruptured ori- fices. It is described as being separable into many laminae; two, however, with facility, may be demon- strated; and it is said that these two laminae, by separating and re-uniting, form the triangular cavities, named Sinuses, which are, in fact, large veins. This division of layers can hardly be admitted as correct in the recent state of the membrane. The Superior Longitudinal Sinus lies in a groove formed by the two parietal bones; it extends along the sagittal suture from the crista galli of the ethmoid bone to the middle of the os occipitis, where it bifurcates into the two lateral sinuses; in its passage backwards, its size is increased. When slit open, its triangular form is evident; it is lined by a smooth membrane, and in it may be remarked the numerous 9 98 LONDON DISSECTOR, OR openings of the veins of the pia mater, the frena, or slips of fibres crossing from side to side, the glandulae Pacchioni internae et externae, which are little bodies like millet-seed, seen on the outer and inner surface of the sinus. The arteries of the dura mater are divided into the anterior, middle, and posterior. 1. Arteria Meningea Media (called also the Spinalis or Spheno-spinalis) the great middle artery, is a branch of the internal maxillary; it passes through the spinous hole of the sphenoid bone, and is seen rising from the anterior inferior angle of the parietal bone (in a groove of which it lies,) and spreading its nume- rous branches over the dura mater. The anterior and posterior arteries are small. 2. A. Meningea Anterior is sent off from the ex- ternal carotid, and enters the cranium by the foramen lacerum orbitale superius. 3. A. Meningea Posterior is given off by the vertebral artery; the dura mater also receives small twigs from the occipital, pharyngeal arteries, &c. The nerves of the dura mater are said to come from the fifth pair; if they exist at all, they are small, and seldom demonstrated. OF THE SEPTA OF THE BRAIN, OR PROCESSES OF THE DURA MATER.* 1. The Falx (septum sagittate, verticale, mediasti- num cerebri or falciform process) is a long, broad fold, or duplicature of the inner lamina of the dura mater dividing the cerebrum into two hemispheres, extend- ing from the crista galliof the ethmoid bone, along the * To demonstrate these, the dura mater should be divided in the line of the division of the'cranium: its internal surface will be found smooth glistening, and free from adhesion, except in the course of the longitudi- nal sinus, into which veins pass from the pia mater. GUIDE TO ANATOMY. 99 middle of the os frontis and point of junction of the two parietal bones,to the crucial ridge of the occipital bone, where it terminates in the middle of the next septum. 2. The Tentorium Cerebelli, or transverse sep- tum. This separates the cerebrum from the cerebel- lum, and is formed by the inner lamina of the dura ma- ter, reflected off from the os occipitis along the groove of the lateral sinuses, and the edge or angle of the tem- poral bones. It is frequently called Tentorium Cere- bello Super Extensum. Its position is horizontal. There are some other folds of the dura mater, not visible in this stage of the dissection, viz: 3. The falx of the cerebellum, or small occipital sep- tum, which will be seen when the cerebrum is removed. It extends from the middle of the tentorium along the middle spine of the os occipitis to the foramen magnum, dividing the cerebellum into two parts. 4. The sphenoidal folds, two small folds of the dura mater, one on each side of the sella turcica, stretching from the posterior to the anterior clinoid processes. The dura mater also, in many parts of the brain, separates its laminae to form sinuses; the principal of these will be noticed in the course of the dissection. Detach the falx from the crista galli, and turn it back- wards; observe in its lower edge the Inferior Lon- gitudinal Sinus, which enters a sinus in the Tento- rium, termed Torcular Hierophili, or straight sinus. This will fully expose the convolutions of the brain, which are closely invested by the pia mater. The next membrane which we meet is the Tunica Arachnoides. It is a transparent membrane, cover- ing uniformly the surface of the pia mater, without passing into the interstices of its duplicatures. It is attached to it, is extremely thin, without vessels, de- monstrated with difficulty on the upper surface of the brain by the "blow-pipe (which raises it into cells,) but on the base of the brain it can be distinctly seen. 100 LONDON DISSECTOR, OR Beneath ,the last membrane is found the Pia Mater, or tunica vasculosa, a very vascular membrane, trans- parent in the interstices of its vessels, investing the sub- stance of the brain, descending betwixt all its convo- lutions, and lining its different cavities; but. where it lines the ventricles it is fine, delicate, and less vascu- lar, than on the surface, and betwixt the convolutions of the brain: It is connected to the dura mater by its veins passing into the longitudinal sinus. The brain is divided into three parts: The cere- brum; the cerebellum; and the medulla oblongata. The Cerebrum consists of two distinct substances: 1. The cineritious or cortical substance forming the outer part. 2. The white or medullary substance forming the inner part. The brain is divided by the falx into two hemis- pheres, and by the pia mater into numerous convolutions. Each hemisphere is divided into three lobes. The Anterior Lobes rest on that part of the cra- nium which forms the two orbits, and is called the anterior fossae of the basis of the cranium. The Middle Lobes are situated before and above the medulla oblongata, and rest on the middle fossae of the basis cranii, which are formed by the sphenoid and temporal bones. The Posterior Lobes are supported by the ten- torium. The anterior and middle lobes are parted by a deep narrow sulcus, which ascends obliquely backwards from the temporal ala of the os sphenoides to near the middle of the os parietale;it is termed Fissura Cere- bri, or Fissura Magna Silvii. By gently separating with the fingers the two hemis- pheres of the brain,* we see passing betwixt them a * Between the hemispheres and on the surface of the corpus callosum we observe, if the arteries are injected, the arterial callos», which are the continuation of the trunks of the anterior cerebri. GUIDE TO ANATOMY. - 101 longitudinal white convex body, the Corpus Callo- sum; it lies under the falx, incurvates downwards at both its extremities, and is continued anteriorly into the medullary substance betwixt the corpora striata, pos- teriorly into the fornix and inferior cornu of the lateral ventricle on each side. From its connecting the two hemispheres it is called the Commissura Magna. On the surface of the corpus callosum is seen the Raphe, formed by two longitudinal medullary lines united by transverse fibres. When the brain is cut horizontally on a level with the corpus callosum, an appearance is produced, termed the Medullary arch, or Centrum Ovale. When only one of the hemispheres is sliced off to this level, the appearance presented by the medullary substance is called the centrum ovale parvum of Vicq d'Azyr. Under this arch are the two lateral ventricles.* If one of these be cautiously perforated on the side of the corpus callosum, and gently inflated by a blow- pipe, its extent may be seen; but, if much force be used, the air will pass into the other ventricle. The two ventricles are separated by a medullary , partition, which descends from the inferior surface of the corpus callosum to the fornix, and is called the Septum Lucidum; it consists of two laminae, with a narrow cavity between. To see this septum, one of the ventricles must be laid open, and the septum pulled gently to the other side. The Lateral Ventricles are two in number, the right and the left, lined with a fine membrane, narrow, consisting of a body, and three prolongations or cor- nua. * To show the lateral ventricles, the corpus callosum should be cut awav close to the septum lucidum; and then, the ventricle of that body, and 'the thickness and breadth of the septum itself, will be more clearly seen. 9* 102 LONDON DISSECTOR, OR 1. The body is formed betwixt the corpus callosum, the medulla of the brain, the convexity of the corpus striatum, and the thalamus nervi optici. 2. The anterior cornu or horn is formed betwixt the more acute convexity of the corpus striatum, and the anterior part of the corpus callosum. 3. The posterior cornu (called also the, digital cavity) may be traced stretching backwards and down- wards into the posterior lobe of the brain. 4. The inferior or descending cornu cannot be traced in this stage of the dissection; it seems like the continued cavity of the ventricle, takes a curve back- wards and outwards, and then, turning forwards, descends into the middle lobe of the brain. The lateral ventricles communicate with each other, and with the third ventricle, by an opening under the fore part of the arch of the fornix, called the foramen commune anterius* In the lateral ventricles we meet with The Fornix, a medullary body, flat, and of a tri- angular shape; which divides the two lateral and the third ventricles. It is exposed on tearing away the septum lucidum; its lower surface is towards the third ventricle; its lateral margins are in the lateral ventri- , cles; on its upper surface it supports the septum luci- dum, and under its most anterior part is the foramen Monroianum:—One of the angles of this body is for- ward, and the other two towards the back part; it rests chiefly on the thalami nervorum opticorum, but * It has been doubted whether or not this be an opening; the choroid plexus passes through it, and seems to unite the surfaces; it is absurdly named the Foramen Monroianum, from a mistaken notion that Dr. Monro discovered it, and may be seen by gently turning the anterior crus of the fornix to one side; it is a space betwixt the most anterior part of the con- vexity of the thalami nervorum opticorum, and the anterior crus of the fornix. This foramen may always be easily found by following the course of the plexus choroides, as it passes forwards in the ventricle. It is a slit, rather than a round hole, in the natural state. ' GUIDE TO ANATOMY. 103 is separated from them by a vascular membrane called the velum. The extremities of the body of the fornix are named its Crura. 1. The crus anterius is double, bends downwards before the anterior commissure of the brain, with which it is connected, and maybe traced into the cor- pora albicantia. 2. The two crura posteriora, coalescing with the back part of the corpus callosum, pass, on each side, into the inferior cornu of the lateral ventricle, and terminate in a pointed form on the hippocampus major. Divide the body of the fornix, invert it, by turning the anterior crus forwards, and the posterior crura backwards; on the under surface of the latter is an appearance of transverse lines, named Corpus Psal- loides, psalterium, or lyra. The inversion of the fornix exposes The Plexus Choroides.—This is a continuation of the pia mater, a spongy mass, consisting of folds of tortuous vessels, partly covering the thalami nervorum opticorum, and continued into the inferior cornu of the lateral ventricles. The plexus of each side is connected to its fellow by the velum interpositum, a membrane which passes under the fornix, and lies on the third ventricle and corpora quadrigemina. From this plexus the blood is received by the Vena Galeni, situated in the middle of the velum which consists of two parallel branches; these run backwards, unite, and enter the fourth sinus of the dura mater, called Torcular Hierophili. This plexus should now be detached at its fore part, and turned back: it will remain as a guide to the knife in tracing the inferior cornu of the lateral ventricle. We now see The Corpora Striata, two smooth cineritious convexities, in the fore part of the lateral ventricle, 104 LONDON DISSECTOR, OR broad, and rounded anteriorly, becoming narrow, and diverging as they pass backwards, consisting of medullary and cortical substance disposed in striae. The Thalami Nervorum Opticorum, two large oval, whitish eminences, placed by the side of each other between the diverging extremities or crura of the corpora striata; towards their fore part is a peculiar eminence or convexity, called the Anterior Tubercle or Monticuhis; they are elongated downwards, to form the optic nerves. The Tania Semicircularis, is a white medullary line, running in the angle betwixt the corpus striatum and thalamus nervi optici of each side. The Commissura Anterior Cerebri, is a short cylindrical medullary cord, stretched transversely between the fore and lower part of the corpora striata, immediately under the anterior crura of the fornix. Just above the commissura anterior, and before the thalami, is the Vulva,.or foramen commune ante- rius, a small slit or indentation, formed by the anterior crus of the fornix, bifurcating, and inserting itself, on each side, between the corpus striatum and thalamus nervi optici. This slit is the space by which the three ventricles communicate. The Commissura Mollis is an exceedingly soft, broad, cineritious junction betwixt the convex surfaces of the thalami nervorum opticorum. On separating the optic thalami, we discover the Third Ventricle. This is a longitudinal sulcus, or slit, situated betwixt the thalami nervorum opticorum, and betwixt the crura cerebri. Above, it is covered by the fornix and velum interpositum; at its upper and fore part, it communicates with the two lateral ven- tricles; below the commissura anterior, it opens into the infundibulum. This opening is termed iter ad infundibulum. Backwards, it is continued by a canal which passes under the tubercula quadrigemina into GUIDE TO ANATOMY. 105 the fourth ventricle. This passage is named iter ad quartum ventriculum, aquaeductus Sylvii, or canalis medius. The Anus, or foramen commune posterius, is situ- ated behind the commissure of the optic thalami, and before the corpora quadrigemina. It is closed up by the velum interpositum, and, when that is removed, leads into the back part of the third ventricle. The Pineal Gland, a small, soft, greyish, and conical body, of the size of a pea, is seated above the tubercula quadrigemina, and behind the thalami, to which it is connected by two white pedunculi, or foot-stalks; its base is turned forwards, and the apex backwards; it is covered by the plexus choroides and posterior crura of the fornix. It contains an earthy matter, either in its own substance, or that of the pedunculi, resembling sand, and, when viewed by a magnifier, assuming a granulated and clear light yellow appearance. It was named by Scemmerring, who first discovered that it belongs to the healthy structure of the brain, the Acervulus Glandula Pinealis The Commissura Posterior is a transverse cord at the back part of the third ventricle, before the tu- bercula quadrigemina, and above the iter ad quartum ventriculum. Tubercula Quadrigemina/ow small white bodies. adhering together, lying under the pineal gland, behind the third ventricle, and above the fourth. The upper- most two are named Nates, and the other two Testes. From the under part of the testes, there projects backwards, connecting itself with the crura cerebelli, a thin medullary lamina, which is the valvula Vieus*- senii, called also processus a cerebello ad testes, velum interjectum, valvula major. The inferior cornu of the lateral ventricle, which descends into the middle lobe of the brain, may now be 106 LONDON DISSECTOR, OR traced, by following the tract of the choroid plexus;* in it is seen The Hippocampus Major, or Cornu Ammonis. At its commencement it is narrow, but it becomes a broad medullary projection of the floor of the ventricle, and its extremity, which is called Pes Hippocampi, is curved inwards. The thin edge on its inside, which follows the whole of its circuit, is named the Corpus Fimbriatum, or Taenia Hippocampi. The posterior crus of the fornix runs along its inner and anterior part, in the form of a thin floating edge. In the posterior cornu of the lateral ventricle, which passes into the posterior lobe of the brain, there is a similar medullary projection, but smaller, the Hippo- campus Minor. In the anterior part of the third ventricle, below the iter ad infundibulum, are seen the Corpora Albi- cantia VVillisii (corpora mamillaria or subrotunda,) two medullary eminences of the size of peas; the remainder of these bodies is seen on the outer surface of the base of the brain. This completes the demonstration of the cerebrum. The whole of the posterior lobes, and the lateral part of the middle lobes, may be removed. This exposes to your view, The Tentorium^ and the Falx Cerebelli. At this point you should trace the bifurcation of the lon- gitudinal sinus into the two lateral sinuses. The lateral sinuses are formed by the splitting of the laminae of the tentorium; hence they follow the course of that membrane, run along their grooves in the occipital bone, and dip downwards and forwards through the foramen lacerum in basi cranii, to terminate in the internal jugular veins. * Or it maybe exhibited by cutting away successive slices of the side of the brain, until the ventricle is exposed. guide to anatomy. 107 The Torcular Hierophili, or fourth sinus, runs along the middle of the tentorium, and joins the ex- tremity of the longitudinal sinus at the point where it bifurcates. The great notch of the tentorium is a circular open- ing left on the anterior part of the tentorium, allow- ing a junction between the cerebrum and cerebellum. Proceed next to the examination of the cerebellum; and, in order to accomplish this demonstration, it will be convenient to remove the posterior part of the os occipitis. Cerebellum.—This part of the brain, divided into two lobes by the falx cerebelli, or septum occipitale, is covered by a vascular membrane; consists of me- dullary and cineritious substance; but instead of convo- lutions, has numerous deep sulci, into which the pia mater dips, and forms thin flat strata. Remark the following processes: 1. Appendix, vel processus vermiformis superior, situated under the pia mater, on the anterior and supe- rior part of the cerebellum. 2. Appendix, or processus vermiformis posterior, will be found situated between the two lobes on the under surface of the cerebellum, and immediately behind the medulla oblongata. On separating the two lobes behind, and making a deep incision, we discover The Fourth Ventricle.—The sides of this ven- tricle are formed by the cerebellum, the anterior part by the medulla oblongata, the upper and back part by the valvula cerebri; it is lined by a thin vascular mem- brane,and has on its fore part a groove or fissure,which, terminating in a sharp point, is named Calamus Scrip- torius. On each side of this groove are seen several medullary lines, which are the origin of the portio mol- lis of the seventh pair of nerves. The iter a tertio ad 108 LONDON DISSECTOR, OR quartum ventriculum enters the upper part of the fourth ventricle. The valvula cerebri hangs over it. On cutting the cerebellum perpendicularly, there is formed, from the intermixture of cineritious and me- dullary matter, a tree-like appearance, named Arbor Vita, of which the trunk is termed the peduncle of the cerebellum, and is continued to the back part of the medulla oblongata. This concludes the demon- stration of the cerebellum. To demonstrate the medulla oblongata and nerves. either the brain must be removed from the cranium, or it may be gradually inverted in the progress of the demonstration;—and this is the better method. The inversion must be begun at the fore-part, by raising the anterioi lobes of the cerebrum. Thus you will see, 1. The First Pair of Nerves, the Olfactory, called also Processus Mammillares. They arise from the outside of the corpora striata, between the anterior and middle lobe of the brain; run under the anterior lobes; being lodged on two superficial grooves, and lying between the pia and dura mater; expand into a small oval ganglion, from which several small filaments descend through the cribriform plate of the ethmoid bone, to ramify on the membrane lining the nose. 2. The Second Pair, the Optic, arise from the posterior part of the optic thalami, and also from the tubercula quadrigemina; they make a circle round the crura cerebri called the Tractus Opticus^ The two nerves approach gradually, and unite, just before the pituitary gland, on the fore part of the sella Turcica. They then diverge, and each nerve passes out at the foramen opticum of the sphenoid bone, to form the retina of the eye. On each side of these nerves are seen the Carotid Arteries. Each artery emerges from the cavernous sinus by the side of the anterior clinoid process: sends GUIDE TO ANATOMY. 109 a branch forwards, which, uniting with a similar branch of the other carotid, forms the anterior part of the Cir- culus Arteriosus Willisii; while other branches passing backwards, and uniting with branches of the basilar artery, complete the posterior part of the arte- rial circle. A fold of dura mater passes from the anterior to the posterior clinoid process of each side. This fold is double, and forms by its duplicature the Cavernous Sinus. On dividing the optic nerves, and inverting them, we see the infundibulum, a funnel of cineritious sub- stance, leading from the inferior and anterior extremity of the third ventricle to the pituitary gland; it is gen- erally imperforate before it reaches the gland. The Pituitary Gland, a reddish body, somewhat globular, consisting of two lobes, is situated in the sella Turcica of the sphenoid bone, partly covered by a fold of dura mater, and attached to the infundibulum. The circular sinus is situated at this point. On detaching the cerebrum from the back part of the sella Turcica, the tunica arachnoides is very evident. 3. The Third Pair of Nerves, Motores Ocu- lorum, arise from the crura cerebri*, pass outwards and forwards on the outer side of the posterior clinoid process into the cavernous sinus, and run through the foramen lacerum orbitale superius to the muscles of the eye. Between these two nerves are seen the two ver- tebral arteries, ascending and uniting, to form the basilary artery. * The two crura pass obliquely backwards and inwards, so as to con- verge and meet in front of the tuber annulare; it is from the hollow formed by their convergence, and named by Vicq d'Azyr, fosse des nerft occtdo-musculaires, that the third pair arise. 10 110 LONDON DISSECTOR, OR 4. The Fourth Pair, Trochleares or Pathet- ici, are very slender, and situated immediately under the edge of the tentorium. This nerve arises from the valvula cerebri, comes out from betwixt the cere- brum and cerebellum, passes by the side of the pons Varolii, and, passing through the cavernous sinus, continues its course through the foramen lacerum orbitale superius, to supply the obliquus superior muscle of the eye. 5. The Fifth Pair, Trigemini, are much larger than the fourth, and are situated more outwards and backwards. Each of these nerves arises, by a num- ber of filaments, from the anterior and lowest part of the crus cerebelli, where the crus unites with the pons Varolii;—it passes forwards, enters the cavern- ous sinus, where it untwists itself, and forms a flat irregular ganglion, the Ganglion Gasserianum, and then divides into three great branches. (1.) Ramus Ocularis.—The ophthalmic nerve of Willis passes through the foramen lacerum orbitale superius to the appendages of the eye. (2.) Ramus Maxillaius Superior passes through the foramen rotundum to the upper jaw and face. (3.) Ramus Maxillaris Inferior passes through the foramen ovale to the lower jaw and tongue. 6. The Sixth Pair, Motores Oculorum Ex- terni, or abductores vel abducentes.—This nerve is small, but not so small as the fourth pair; it is seen arising betwixt the pons Varolii and corpora pyrami- dalia: it enters the cavernous sinus,—it there runs by the side of the carotid artery, and passes through the foramen lacerum orbitale superius to the rectus exter- nus oculi. While in the cavernous sinus, it gives off the small twig, which, uniting with filaments from the second branch of the fifth pair, forms the beginning of the guide to anatomy. 111 intercostal nerve, and passes out of the cranium through the foramen caroticum with the carotid artery. 7. The Seventh Pair, Nervi Auditorii, con- sists of two portions. (1.) The Portio Dura, or the fascial nerve, arises from the crus cerebelli, and comes out from the fossa or groove betwixt the pons Varolii, corpora olivaria, and crura cerebelli. (2.) The Portio Mollis, or more properly the audi- tory nerve, arises from the inner surface of the fourth ventricle; it has a groove on its surface for receiving the portio dura;—accompanied by an artery, they enter the meatus auditorius internus, where the portio mollis is distributed to the parts of the internal ear, while the portio dura runs through the aqueduct of Fallopius, and comes out at the stylo-mastoid foramen below the ear, to form the principal nerve of the face. 8. The Eighth Pair, Par Vagum, arises by numerous filaments from the sides of the corpora olivaria and medulla oblongata. Two distinct fasci- culi are formed, the uppermost called nervus glosso- pharyngeus, the other the proper par vagum;—they unite, run towards the foramen lacerum in basi cranii, pierce the dura mater, and pass out through the ante- rior part of that hole, having been first joined by the Nervus Accessorius ad Par Vagum, or spinal accessory, which runs up from the medulla spinalis through the great occipital foramen. The great Lateral Sinus passes out by the back- part of the same foramen, to form the internal jugular vein; it is separated from the nerve by a slip of cartilage. 9. The Ninth Pair, Linguales, Linguales Medii, Hypoglossi.—This nerve arises from the furrow betwixt the corpora olivaria and pyramidalia, by several filaments which often pierce the dura mater separately. It passes through the anterior condyloid 112 LONDON DISSECTOR, OR hole of the occipital bone, to supply the muscles of the tongue. Immediately after leaving the cranium, the eighth and ninth pair, and the ganglion of the intercostal, are connected together. 10. The Tenth Pair,* Suboccipitales, arise, on each side, by two bundles, from the extremity of the medulla oblongata, and upper part of the spinal mar- row, pass through the dura mater by the same foramen which gives entrance to the vertebral artery, and run through the foramen magnum occipitale to the muscles at the base of the cranium. The corpora albicantia Willisii, are again seen, two white bodies, on the base of the brain, behind the infundibulum, and above the pons Varolii. The Medulla Oblongata remains to be demon- strated. It should be removed from the bone, and examined in an inverted position. On its under surface are seen the two vertebral arteries, ascending from the foramen magnum, and uniting', to form one trunk, the basilar artery. On removing the pia mater, the whole surface appears medullary; but an incision shows it to be intermixed with the Cineritious substance. The Crura or Pedunculi Cerebri are two con- siderable medullary fasciculi, proceeding from the centre of the medulla of the brain, more immediately from the corpora striata; they unite at an acute angle, and are united to the pons Varolii.f The Crura or Pedunculi Cerebelli are very large, and pass from the medullary part of the cere- bellum which forms the arbor vitae to the pons Varolii. * These are now perhaps as frequently described as the first pair of cervical nerves. t On making a section of the crura cerebri, near to their union with the pons Varolii, a portion of a dark-brown colour, surrounded with white medullary substance, is seen, termed Locus Ni<*er Crurum Cerebri. GUIDE TO ANATOMY. 113 The Pons Varolii, Tuber Annulare, or Nodus Cerebri, is a medullary protuberance, formed by the union of the crura cerebri and cerebelli, over which it is stretched like a bridge; on its surface is a raphe, or transverse fibres passing into a middle longitudinal narrow depression. Below the pons Varolii, and separated from it by a sulcus, are seen four eminences: 1. The two external are named Corpora Oliva- ria. 2. The two internal are named Corpora Pyra- midalia, and, by separating these two bodies, medul- lary cords, passing transversely, appear, the nervi intercerebrales. Small cords also project from the back part of the corpora olivaria, which have received the name of Corpora Restiformia. The point of union betwixt the corpora pyramidalia and pons Varolii, is sometimes called foramen cascum. The medulla oblongata now contracts itself, and passing through the foramen magnum occipitale, assumes the name of Medulla Spinalis, or the Spinal Marrow. This part of the nervous or sensorial system must be here described, although its dissection cannot be performed till all the muscles of the back are removed, so that the posterior part of the spinal canal may be sawed off The spinal canal is lined by a strong ligamentous sheath, and the dura mater is continued down upon this sheath in the form of a funnel. The spinal marrow consists externally of medullary substance, internally of cineritious. It runs down to the first lumbar vertebra, where it terminates by numerous filaments, which form the cauda equina. It is closely embraced by the pia mater, while the tunica arachnoides adheres to that membrane very loosely. 10* 1 1 4 LONDON DISSECTOR, &C During the whole of its passage, there is on each side a membranous connection betwixt the pia and dura mater, by distinct slips, irregular and pointed, which connection is named Ligamentum Denticulatum. The arteries of the medulla may be seen running down on its anterior and posterior surfaces; they are branches of the vertebral artery. The spinal accessory nerve is seen arising by small twigs from the posterior bundles of the fourth, fifth, sixth, and seventh cervical nerves; it then ascends along the spinal canal, enters the foramen, and passes forwards, to accompany the par vagum. The spinal marrow sends off* twenty-nine pair of spinal nerves, which pass through the foramina formed betwixt the bodies of the vertebrae. They consist of seven cervical, twelve dorsal, five lumbar, and five sacral pairs of nerves. Each of these nerves arises in two fasciculi, one from the fore part, the other from the back part of the spinal marrow; these fasciculi penetrate the dura mater separately; the posterior bundle forms a ganglion, and afterwards unites with the anterior fasciculus, to form the nerve. CHAPTER VIT. DISSECTION OF THE ANTERIOR PART OF THE NECK. The utility of this dissection must be evident, when you consider how many important parts are contained in the fore part of the neck. The tube which conveys air to the lungs, the vessels which are sent from the heart to the brain, and the nerves which are destined to supply the thoracic and abdominal viscera, are here situated, and all these parts lie imbedded in cellular substance; hence the dissection is intricate,and requires the utmost care in its performance. The muscles of the anterior part of the neck, are sixteen in number on each side. They may be divided into muscles situated superficially, muscles at the upper part of the neck, and those situated at the lower part. The superficial muscles are two: to display them, make an incision from the chin to the sternum, another along the clavicle, and a third along the edge of the inferior maxillary bone; dissect up the flap and you will expose immediately under the integuments, and adher- ing to them, 1. The Musculus Cutaneus, vulgo, Platysma myoides, or Latissimus Colli.—It arises, by slender separate fleshy fibres, from the cellular substance, covering the upper part of the deltoid and pectoral muscles. These fibres form a thin broad muscle, which runs obliquely upwards, and is Inserted into the skin and muscles covering the lower jaw and cheek. 116 LONDON DISSECTOR, OR Use: To draw the skin of the cheek downwards, and, when the mouth is shut, to draw the skin under the lower jaw upwards: others say that it assists the respiration and circulation. Remove the platysma myoides from its origin, and invert it over the face. Immediately beneath it is seen the external jugular vein, which is formed of branches from the temple, side of the face, and throat. It crosses obliquely over the sterno-mastoideus, passes behind the outer edge of that muscle, and dives beneath the clavicle, to enter the subclavian vein. 2. The Sterno-Cleido-Mastoideus—Arises, by two distinct origins; the anterior, tendinous and fleshy, and somewhat round, from the top of the sternum, near its junction with the clavicle; the posterior or outer, fleshy and flat, from the upper and anterior part of the clavicle. These two origins soon unite, and form a strong muscle, which ascends obliquely upwards and outwards, to be Inserted, tendinous, into the outside of the mastoid process, and into the transverse ridge behind that pro- cess. Use: When one acts singly, it turns the head to one side. When both act together, they bend the head forwards. The muscle should be detached from the sternum and clavicle, and left suspended by its insertion. It is pierced by several branches of the cervical nerves, and about its middle, it is perforated by the Nervus Ac- cessorius. These nerves ramify on the neighboring muscles of the neck and shoulder. Between the pos- terior edge of the sterno-cleido-mastoideus and the fore part of the trapezius muscles, is seen a quantity of loose fatty substance, intermixed with branches of nerves. This fatty substance is watery and granu- lated; it must not be removed roughly, lest important GUIDE to anatomy. 117 nerves and vessels be injured; it is continued around the vessels under the clavicle. In the middle of the throat may be seen: The Os Hyoides, or bone of the tongue, forming the uppermost of the projections beneath the chin. The Larynx, or upper part of the trachea, consist- ing of five cartilages, of which two are evident exter- nally, viz: the uppermost and largest the thyroid car- tilage; and the inferior or cricoid cartilage. The two arytenoid cartilages, and the epiglottis, lie behind this. The Trachea, consisting of cartilaginous rings, and extending into the thorax. Behind the larynx is situated the pharynx. At the part where the larynx terminates in the trachea, the pharynx contracts itself, and forms the oesophagus, or muscular tube, conveying the food to the stomach, which descends behind the trachea, situated rather to the left side of the cervical vertebrae. These parts are covered by muscles, and on each side of the trachea lie the great vessels and nerves. ■ The muscles at the lower part of the neck are five. 3. The Sterno-Hyoideus—Arises, thin and fleshy, from the upper and inner part of the sternum, clavicle, and first rib:—It forms a flat narrow muscle. Inserted into the base of the os hyoides. This pair of muscles is seen on removing the platysma myoides, between the sterno-cleido mas- toidei. Use: To pull the os hyoides downwards. 4. The Omo-Hyoideus—Arises, broad, thin, and fleshy, from the root of the coracoid process, and semilunar notch of the scapula, ascends across the neck, and forms a middle tendon, where it passes below the sterno-cleido-mastoideus. Becoming fleshy again, it runs up, and is 118 LONDON DISSECTOR, OR Inserted into the base of the os hyoides, between its cornu and the insertion of the sterno-hyoideus. The lower part of this muscle is covered by the trapezius; its middle by the sterno-cleido-mastoideus; its anterior part is seen on removing the platysma myoides; it crosses over the carotid artery, and internal jugular vein. Use: To assist in drawing down the os hyoides. On dividing the sterno-hyoideus, observe under it, 5. The Sterno Thyroideus.—This muscle arises, fleshy, from the inside of the sternum, and of the extremity of the first rib; forms a flat muscle, and is Inserted into the inferior edge of the thyroid car- tilage. Use: To draw the thyroid cartilage, and conse- quently the larynx, downwards. Under the sterno-thyroideus, we find situated the Thyroid Gland, a large reddish mass, situated on the superior rings of the trachea, below the cricoid cartilage; in form somewhat like a crescent, with the cornua turned upwards. 6. The Thyro-Hyoideus—Arises, fleshy, from the upper surface of the oblique ridge in the ala of the thyroid cartilage, and passes upwards, to be Inserted into part of the base, and almost all the cornu of the os hyoides. It is covered by the sterno- hyoideus. 7. The Crico-Thvroideus—Arises, tendinous and fleshy, from the side and fore part of the cricoid cartilage, and runs obliquely upwards. Inserted, by two fleshy portions, the first into the lower part of the thyroid cartilage, and the second into its inferior cornu. It is found on the side of the larynx, and under the sterno-thyroideus, and serves to pull forwards and depress the thyroid, or to elevate and draw backwards the cricoid cartilage. guide to anatomy. 119 The muscles at the upper part of the neck consist of nine pair. 8. The Digastricus—Arises, from the fossa at the root of the mastoid process of the temporal bone; its fleshy belly terminates in a strong round tendon, which runs downwards and forwards, passes through the fleshy belly of the stylo-hyoideus, is fixed by strong ligamentous and tendinous fibres to the os hyoides, from which it receives an addition of fibres; it then becomes again fleshy, and runs obliquely upwards, to be Inserted into a rough sinuosity on the lower jaw behind the Chin. Its posterior belly is covered by the sterno-cleido- mastoideus; but its anterior lies immediately under the skin and platysma myoides. Use: To open the mouth, by pulling the lower jaw downwards and backwards; and, when the jaws are shut, to raise the larynx, and consequently the pharynx, in deglutition. In the triangular space formed by the two bellies of • this muscle, and the base of the lower jaw, lies the Submaxillary Gland. It rests upon a flat muscle, the mylo-hyoideus, which is seen between the two bellies of the digastricus; the gland is surrounded by little absorbent glands. 9. The Stylo-Hvoideus—Arises, tendinous, from the middle and inferior part of the styloid process of the temporal bone; its fleshy belly is generally perfo- rated by the digastricus. Inserted, tendinous, into the os hyoides at the junc- ture of its base and cornu. The origin of this muscle is situated more inwards than the last, and nearer the base of the cranium; it is the most superficial of three muscles which arise from the styloid process; sometimes it is accompanied by 120 LONDON DISSECTOR, OR another small muscle, having the same origin and insertion, the stylo-hyoideus alter. Use: To pull the os hyoides to one side, and a little upwards. 10. The Stylo-Glossus—Arises, tendinous and fleshy, from the styloid process, and from a ligament that connects that process to the angle of the lower jaw. It descends, and becomes broader, but less thick. Inserted into the root of the tongue, runs along its side, and is insensibly lost near its tip. Use: To move the tongue laterally and backwards. 11. The Stylo-PharyngEus—Arises, fleshy, from the root and inner part of the styloid process. Inserted into the side of the pharynx and back part of the thyroid cartilage. It is situated deeper, and behind the stylo-glossus, and serves to dilate and raise the pharynx and thyroid cartilage upwards. On removing the submaxillary glands, and detaching the digastric muscle from the os hyoides and chin, we expose the next muscle. 12. The Mylo-Hyoideus—Arises, fleshy, from all the inside of the lower jaw, between the last dens molaris and the middle of the chin; the fibres form a flat muscle, converge, and are Inserted into the lower edge of the base of the os hyoides; it unites with its fellow in a middle tendi- nous line which extends from the os hyoides to the chin; its posterior part is lined by the internal mem- brane of the mouth; it lies under the digastricus, but is seen betwixt its bellies. Use: To pull the os hyoides forwards, upwards, and to either side. The submaxillary gland sends off a duct, which passes behind the posterior edge of the mylo-hyoideus then runs along the inner surface of this muscle for- GUIDE TO ANATOMY. 121 wards and upwards, on the inside of the sublingual gland to open into the mouth on the side of the frehum of the tongue. The Sublingual Gland lies immediately above the mylo-hyoideus, betwixt it and the internal mem- brane of the mouth, where it lines the side and inferior surface of the tongue. It sends off several ducts, which open into the mouth between the root of the tongue and side of the lower jaw. The removal of the mylo-hyoideus exposes a pair of muscles, which are closely attached to one another. 13. The Genio-Hyoideus—«#mes, tendinous, from a projection on the inside of that part of the lower jaw which is called the Chin; it descends, becoming broader, and is Inserted into the basis of the os hyoides. Use: To draw the os hyoides forwards and upwards to the chin. By removing this muscle, or turning it back from its origin from the jaw, we discover the next muscle. 14. The Genio-Hyo-Glossus—Arises, tendinous, from a rough protuberance on the inside of the lower jaw, higher up than the origin of the genio-hyoideus; its fibres run forwards, upwards, and backwards, in a very wide and radiated manner, to be Inserted, some into the posterior part of the base of the os hyoides, near its coram, others into the tip, middle, and root of the tongue. This muscle lies under the genio-hyoideus before; and more outwardly, under the mylo-hyoideus. Use: According to the direction of its fibres, to draw the tip of the tongue backwards into the mouth, the middle downwards, and to render its dorsum concave; to draw its root and the os hyoides forwards, and to thrust the tongue out of the mouth. It is called also Genio-glossus. 15. The Hyo-Glossus—Arises, broad and fleshy, 11 122 LONDON DISSECTOR, OR from half of the base, and part of the cornu of the os hyoides; the fibres run upwards, to be Inserted into the side of the tongue. It is situated more outwardly than the genio-hyo- glossus, and, at its insertion into the tongue, mixes with the stylo-glossus. It moves the tongue inwards and downwards. 16. TheLiNGUALis—Arises from the root of the tongue laterally, and runs forwards between the hyo- glossus and genio-hyo-glossus, to be Inserted into the tip of the tongue, along with part of the stylo-glossus. Use: To contract the substance of the tongue, and bring it backwards. CHAPTER VIII. DISSECTION OF THE MUSCLES ON THE OUTSIDE OF THE THORAX. In removing the integuments from the fore part of the thorax, the pectoralis major and interior edge of the deltoid muscle should be dissected in the course of their fibres; and to do this, it will be necessary to remember that the fibres run obliquely from the ster- num and clavicle to the upper part of the os humeri. They are not covered by any fascia, but by a con- densed cellular membrane. Three pair of muscles are described in this dissec- tion. 1. The Pectoralis Major—Arises, tendinous, from the anterior surface of the sternum, its whole GUIDE TO ANATOMY. 123 length; fleshy, from the cartilages of the fifth, sixth, and sometimes the seventh ribs, and from two anterior thirds of the clavicle. The fleshy fibres run obliquely across the breast, and, converging, form a strong flat tendon, which is Inserted into the outside of the bicipital groove of the os humeri. The clavicular and thoracic portions of the muscle are separated by a line of cellular membrane. The tendon is covered by the anterior edge of the deltoid; it forms the anterior fold of the arm-pit, and appears twisted; for the fibres, which proceed from the tho- racic portion of the muscle, seem to pass behind those proceeding from the clavicle, and to be inserted into the os humeri somewhat higher up. Use: to move the arm forwards, and obliquely upwards, towards the sternum; or to draw it towards the side. The pectoralis major should be lifted up from its origin, and suspended by its tendon. This will expose the next two muscles. 2. The Pectoralis Minor—Arises, by three ten- dinous and fleshy digitations, from the upper edges of the third, fourth, and fifth ribs, near their cartilages; it forms a fleshy triangular belly which becomes thicker and narrower as it ascends, and is Inserted, by a short flat tendon, into the anterior part of the coracoid process of the scapula. The belly of this muscle is covered by the pecto- ralis major; the tendon passes under the anterior edge of the deltoid, and is connected at its insertion with the origins of the coraco-brachialis, and of the short head of the biceps flexor cubiti, and also with the ligamentum proprium scapulae anticum, a strong liga- ment, which passes from the external edge of the coracoid process, to be affixed to the posterior margin of the acromion of the scapula. 124 LONDON DISSECTOR, OR Use: To draw the scapula forwards and down- wards, and, when that bone is fixed, to elevate the ribs. This muscle is called also Serratus minor anticus. 3. The Subclavius—Arises, by a flat tendon, from the cartilage of the first rib, and forms a broad fleshy belly, which is Inserted into the inferior surface of the clavicle, beginning about one inch from the sternum, and con- tinuing as far as the ligamentous connection of the clavicle to the coracoid process. This muscle is situated between the clavicle and sternum, and is concealed by the pectoralis major, and the anterior part of the deltoid. Use: to draw the clavicle downwards and forwards, and perhaps to elevate the first rib. Having lifted up the pectoralis minor from its origin, the situation of the subclavian vessels which pass under the clavicle, and over the first rib, may be seen. OF THE PARTS WITHIN THE THORAX. The cavity of the thorax may now be opened, by cutting through the cartilages of the ribs on each side, and separating the lower part of the sternum from the diaphragm. That bone must then be lifted upwards and removed, by separating it at its articulations with the clavicle. This will allow us to examine more readily the great vessels passing out of the thorax. On looking under the sternum, while it is lifted up, we see the Mediastinum, separating, as it is gradually torn from the posterior surface of the sternum, into two layers, and thus forming a triangular cavity. This cavity is artificially produced, and is entirely owing to the method of raising the sternum. When the sternum is laid back or removed, the fol- lowing parts are to be observed: GUIDE TO ANATOMY. 125 The Mediastinum, now collapsed, dividing the thorax into two distinct cavities, of which the right is the largest. The lungs of each side lying distinct in these cavities. The Pericardium, containing the heart, situated in the middle of the thorax, between the two laminae of the mediastinum, and protruding into the left side. The internal surface of the pleura, smooth, colorless, and glistening, lining the ribs, and reflected over the lungs. 1. The Pleura.—Each side of the thorax has its particular pleura.—The pleurae are like two bladders, situated laterally with respect to each other; by ad- hering together in the middle of the thorax, and pass- ing obliquely * from the posterior surface of the ster- num to the dorsal vertebrae, they form the mediasti- num.—The pleura lines the ribs, and the upper surface of the diaphragm, and is reflected over the lung, which is in fact behind it; it forms the ligamentum latum pul- monis, a reflection of this membrane, which connects the inferior edge of the lungs to the spine and dia- phragm. 2. The Lungs.—Reddish in children, greyish in adults, and blue in old age. Their shape corresponds to that of the thorax, being pyramidal, convex towards the ribs, concave towards the diaphragm, and irregu- larlv flattened next the mediastinum. The Right Lung is the larger, and is divided into three lobes, two large ones, and an intermediate smaller lobe. The Left Lung has two lobes, and also a square notch opposite the apex of the heart. Into the sulci or * They run obliquely, not being in general attached to the middle of the sternum, but towards its left side, especially at the lower part of the bone, neaithe diaphragm. Besides the pericardium, the mediastinum con- tains betwixt its laminae some adipose membrane and absorbent glands. 11* 126 LONDON DISSECTOR, OR grooves which form the divisions of the lungs into lobes, the pleura enters; that part of the lung which is affixed to the spine, is called its root; through it the great vessels enter. 3. The Pericardium is a strong, white, and com- pact membrane, smooth and lubricated upon the inside, forming a bag for containing the heart, and having its inner lamina reflected over the substance of the heart itself. 4. When you slit open the fore part of the pericar- dium, you expose the Heart. The right ventricle protrudes; the right auricle also is towards you; while the left auricle is concealed, and only its tip is seen lapping round upon the left ventricle. From under this tip of the left auricle, a branch of the coronary vein, and of the coronary artery, ramify towards the apex of the heart, marking the situation of the septum cordis. The left ventricle will be found firm, fleshy, and resisting, whilst the right ventricle is more loose, and seems partly wrapt round the other. The heart is situated obliquely in the middle of the breast; its posterior surface is flat, and lies upon the diaphragm; its apex is turned forwards, and towards the left side, so that, in the living body, it is felt striking between the fifth and sixth ribs, at the point where the cartilages and bony extremities are united. The Vena Cava Superior is seen coming down from the upper angle of the pericardium. The Inferior Cava is seen coming up through the diaphragm; but only a very small part of this vein is covered by the pericardium; the two veins enter the right auricle. The Right Auricle is turned forwards, and might be called the anterior; it generally appears black,from the blood shining through its thin coats. The Right Ventricle is situated almost directly opposite. The Pulmonary Artery arises from the right ventricle; its root is concealed by the right auricle; it ascends on the left side of the guide to anatomy. 127 aorta, and divides into the right and left pulmonary arteries: the right passes under the arch of the aorta, crosses behind it and the vena cava superior to the right lung, and is the longer; whilst the left pulmonary artery passes to the left lung, crossing the descending aorta anteriorly. The Pulmonary Veins enter the left auricle, two veins come from each lung; the right veins are longer, because they pass behind the vena cava superior. The left auricle is situated on the left side of the right auricle, and somewhat behind it; its tip is seen lapping round upon the Left Ventricle; this is situated behind and on the left side of the right ventricle; its substance is stronger and more firm to the touch. The Aorta arises from the back part and right side of the left ventricle; its root is covered by the pulmonary artery; it then ascends betwixt that ar- tery and the vena cava superior. Immmediately from the root of the aorta, within the pericardium, the two coronary arteries are sent off to supply the heart itself. «\s the Vena Cava Superior descends before the root of the lungs, and on the right side of the aorta, immediately before it perforates the pericardium, it is joined upon its posterior part by the vena azygos, which comes forwards from the spine, returning the blood from the intercostal spaces. Behind the sternum, and just above the arch of the aorta, the superior cava is seen receiving two great branches: One from the right side, formed by the right subcla- vian vein, and the right internal jugular; and another, which is larger, from the left side; formed by the left subclavian and the left internal jugular. This trunk crossing in front of the arteries arising from the arch of the aorta, enters the superior vena cava. Into the posterior part of the angle formed by the union of the left subclavian and the left jugular, the thoracic duct empties itself. 128 LONDON DISSECTOR, OR On each side of the neck, the internal jugular vein will be seen descending by the side of the carotid, while the subclavian vein comes from the arm. The Vena Cava Inferior, immediately after pass- ing through the diaphragm from the abdomen, enters the pericardium. The Aorta leaves the heart opposite the fourth dorsal vertebra; it crosses over the pulmonary artery, ascends obliquely upwards, backwards, and to the right side, as high as the second dorsal vertebra. Here it forms an Arch or incurvation, which passes from the right to the left side, and at the same time obliquely from before backwards; it then comes in contact with the upper part of the third dorsal vertebra, and de- scends along the spine in the posterior mediastinum. This arch of the aorta is situated behind the first bone of the sternum, behind and somewhat below the left branch of the vena cava superior. From the upper part of the arch come off three large arteries: • The Arteria Innominata, or common trunk of the right carotid and subclavian; the left carotid and the left subclavian. The student should observe also the Thymus gland; a soft glandular body, lying before the lower part of the trachea and the great vessels of the heart, a little higher than the tops of the two pleurae. It is very large in the foetus, smaller in adults, and nearly disap- pears in the aged. Where the aorta begins to descend, it is connected to the pulmonary artery by a ligament, which, in the foetus, was a large canal, the Ductus Arteriosus. The heart may be now removed. dissection of the heart, when removed from the body. The heart consists of three tunics or coats. 1. An external smooth one, which is a reflection of the inter- GUIDE TO ANATOMY. 129 nal lamina of the pericardium. 2. A middle muscular coat. 3. A smooth internal coat, which is a continua- tion of the internal coat of the great veins and arteries. In the right side of the heart we always meet with a considerable quantity of coagulated blood. In the left side there is much less. Slit open with the scissors the two venae cavae on their fore part; the inner surface of these veins, and of the right auricle, will be seen lined by a smooth membrane; and in the auricle, themusculi pectinati, or bundles of muscular fibres, will be seen projecting. At the point of union between the two cavae, there is a projection formed by the thickening of the muscular coat, called the Tuberculum Loweri. The Septum Auricu- larum is seen separating the right from the left auri- cle;—observe that it is thin, that in it there is an oval depression, named Fossa Ovalis. Round this fossa the fibres are thicker, forming the annulus ovalis; this is the remains of the Foramen Ovale of the foetus; and in many adult subjects a probe may be passed through the superior part of the fossa obliquely into the left au- ricle. The Valvula Nobilis, or Eustachian Valve, is a membrane-like duplicature of the inner coat of the auricle, observed where the vena cava inferior is continued into the auricle, and stretching from that vein towards the opening into the right ventricle. This valve is sometimes found reticulated. Behind this valve is the orifice of the Coronary Vein, with its small valve. The foramina Thebesii are minute orifices of veins, which open into all the cavities of the heart; they are most numerous, however, in the right auricle. The Ostium Venosum, or opening of the right au- ricle into the right ventricle, is somewhat oval; it has a valve which projects into the right ventricle. The Right Ventricle may now be opened by an incision, carried from the root of the pulmonary artery ' 130 LONDON DISSECTOR, OR down to the apex of the heart. This incision should be made with care, lest the parts on the inside of the ventricle be destroyed by it; it should pass along the right side of the septum ventriculorum,the situation of which is marked out by large branches of the coronary artery and vein. A small opening should first be made, into which one blade of the scissors can be introduced: the incision may be continued through the apex of the heart, or a flap may be made by another cut, passing from the beginning of the first along the margin of the right auricle. In this ventricle, observe the project- ing bundles of muscular fibres, the Tricuspid Valves arising from the margin of the ostium venosum, and projecting into the right ventricle. This valve forms a complete circle at its base, but has its edge divided into three parts, which are attached by tendinous fila- ments, named Chorda Tendina, to the Columna Carnea, or muscular bundles of the ventricle. The Septum Ventriculorum, or partition of the two ventricles, is marked out externally by two veins running from the apex to the basis of the heart. Slit up the pulmonary artery: observe how it arises from the back part of the right ventricle, how smooth the inside of the ventricle becomes as it approaches the entrance of the artery, or ostium arteriosum. Ob- serve the three Semilunar or Sigmoid Valves. Their bases arise from the artery, their loose edges project into its cavity, and in the middle of the loose edge of each valve is seen a small white body, termed Corpus Sesamoideum Aurantii. The artery is seen bifurcating into the right and left pulmonary arteries, and, just before its bifurcation, sending off to the aorta the ductus arteriosus, which in the adult is a ligament. The Left Auricle has four pulmonary veins opening into its cavity, which may be exposed by slit- ting up two of these veins. Observe that its coats are thicker than those of the right auricle. The septum GUIDE TO ANATOMY. 131 auricularum, with the fossa ovalis, is here seen less distinctly than on the right side. Observe also the ostium venosum, opening into the left ventricle, and giving attachment to the Valvula Mitralis. The Left Ventricle may be opened in the same manner as the right, by an incision carefully made in the left side of the septum or partition of the ventricles, and continued round the upper part of the ventricle, under the auricle. Observe the great thickness of the muscular coat; the Valvula Mitralis, forming two projections, which are attached by the chordae tendi- neae to the fleshy columns of this ventricle. Slit up the aorta; it has three semilunar valves, which resemble those of the pulmonary artery:—behind these valves the artery bulges out, forming the Sinuses of the aorta. Above two of the valves lie the orfices of the two coronary arteries; of which the left is the larger. CHAPTER IX. DISSECTION OF THE MUSCLES OF THE FACE. Under the integuments of the face, there is always a considerable quantity of adipose membrane; many of the muscles are very slender, and, lying embedded in this fat, require careful dissection. The whole side of the face is also supplied with numerous ramifications of the fascial nerve, or portio dura of the seventh pair. These nervous twigs are generally removed with the integuments. Twelve pair of muscles, and one single muscle, are described in this dissection. 132 LONDON DISSECTOR, OR 1. The Orbicularis Palpebrarum or orbicularis oculi—Arises, from the internal angular process of the frontal bone, and from a tendon at the inner angle of the eye, by a number of fleshy fibres which pass round the orbit, covering first the superior, and then the inferior eye-lid, and also the bony edges of the orbit. Inserted, by a short round tendon, into the nasal process of the superior maxillary bone. This muscle is intermixed, at its upper part, with the occipito-frontalis; it covers the upper part of the lacrymal sac, and should be divided into the external and internal muscles. The internal is the ciliaris which covers the cartilages of the eye-lids, which are called the Cilia or Tarsi. Use: To shut the eye, by bringing down the upper lid, and pulling up the lower; the fibres contracting towards the inner angle, as to a fixed point, compress the eye-ball and lacrymal gland, and convey the tears towards the puncta lacrymalia. 2. The Corrugator Supercilii—Arises, fleshy, from the internal angular process of the os frontis; it runs outwards and a little upwards, to be Inserted into the inferior fleshy part of the occipito- frontalis muscle, extending outwards as far as the mid- dle of the superciliary ridge. This muscle is concealed by the occipito-frontalis. It lies close to the upper and inner part of the orbicu- laris palpebrarum, with which it is connected. Use: To smooth the skin of the forehead, by pulling it down after the action of the occipito-frontalis. When it acts more forcibly, it pulls down the eye- brow and skin of the forehead, and produces vertical wrinkles. 3. The Compressor Naris—Arises, narrow, from the outer part of the ala nasi, and neighbouring part of the os maxillare superius. From this origin a GUIDE TO ANATOMY. 133 number of thin separate fibres run up obliquely along the cartilage of the nose toward the dorsum nasi, where the muscle joins its fellow, and is Inserted, slightly, into the lower part of the os nasi and nasal process of the superior maxillary bone. It is superficial; its origin is connected with the levator labii superioris alaeque nasi; and its upper part with some of the descending fibres of the occipito- frontalis. Use: To compress the ala towards the septum nasi; but, if the fibres of the occipito-frontalis, which adhere to it, act, the upper part of this muscle assists in drawing the ala outwards. It also corrugates the skin of the nose. 4. Levator Labii Superioris Alao.ue Nasi— Arises by two distinct origins; the first from the nasal process of the superior maxillary bone, where it joins the os frontis at the inner canthus of the eye; it descends along the nasal process, and is inserted into the outer part of the ala nasi, and into the upper lip. The second arises, broad and fleshy, from the external orbitar process of the superior maxillary bone, imme- diately above the foramen infra-orbitarium; it runs down, becoming narrower, and is inserted into the upper lip and orbicularis oris. The first portion of this muscle is sometimes called Levator Labii Superioris Alaeque Nasi; and the second, Levator Labii Superioris Proprius. Their origins are partly covered by the orbicularis palpe- brarum. They descend more outwardly than the ala nasi. Use: To raise the upper lip and dilate the nostril. The infra-orbitary artery, vein, and nerve, are seen emerging from the infra-orbitary foramen under this muscle. 5. Zygomaticus Minor—(often wanting) Arises 12 134 LONDON DISSECTOR, OR from the upper prominent part of the os malae, and, descending obliquely downwards and forwards, is Inserted into the upper lip near the corner of the mouth. Use: To draw the corner of the mouth and upper lip obliquely upwards and outwards. 6. Zygomaticus Major—Arises, fleshy, from the os malae, near the zygomatic suture. Inserted into the angle of the mouth, appearing to be lost in the depressor anguli oris, and orbicularis oris. Its origin is partially covered by the orbicularis palpebrarum; it lies more outwardly than the zygo- maticus minor. Use: To draw the corner of the mouth and under lip upwards and outwards. 7. The Levator Anguli Oris, or Levator labiorum communis—Arises, thin and fleshy, from a depression of the superior maxillary bone, between the root of the socket of the first dens molaris, and the foramen infra-orbitarium. Inserted into the angle of the mouth. It lies more outwardly than the levator labii supe- rioris alaeque nasi, and is in part concealed by that muscle, by the zygomaticus minor, and part of the zygomaticus major. At its insertion it is particularly connected with the depressor anguli oris. Use: To draw the corner of the mouth upwards. 8. The Depressor Anguli Oris—Arises, broad and fleshy, from the base of the maxillary bone, near the chin, and, gradually becoming narrower, is Inserted, into the angle of the mouth, uniting with the zygomaticus major, and levator anguli oris: it is also firmly connected with the platysma myoides. Use: To pull down the corner of the mouth. 9. The Depressor Labii Inferioris, or Quad- ratus Genae—Arises, fleshy and broad, from the side GUIDE TO ANATOMY. 135 of the lower jaw, a little above its lower edge; it runs obliquely upwards and inwards, and is Inserted into the edge of the under lip. This muscle, at its insertion, decussates with its fellow. It is in part covered by the depressor anguli oris, and forms the thick part of the chin, and has its fibres interwoven with fat. Use: To pull the under lip downwards. 10. The Buccinator—Arises, tendinous and fleshy, from the lower jaw, as far back as the root of the coronoid process; from the upper jaw, as far back as the pterygoid process of the sphenoid bone; it then con- tinues to arise from the alveolar processes of both jaws, as far forwards as the dentes cuspidati. The fibres run forwards, and are Inserted into the angle of the mouth. This muscle lies deep, adheres to the membrane that lines the mouth; and a quantity of fat is always found between its fibres and the other muscles and integuments. It is partly concealed by the masseter, and by the muscles which pass to the angle of the mouth, as the levator and depressor anguli oris, and zygomaticus major. It is inserted behind these mus- cles. In the cheek it is connected with the platysma myoides, and is perforated by the duct of the parotid gland. Use: To draw the angle of the mouth backwards and outwards, and to contract its cavity, by pressing the cheek inwards. The single muscle is the Orbicularis Oris.—It consists of two planes of semicircular fibres, which decussate at the angles of the mouth. These fibres are formed chiefly by the muscles which are inserted into the lips; they sur- round the mouth. The superior portion runs along the upper lip, the inferior along the lower. It is connected and intermixed with the insertions 136 LONDON DISSECTOR, OR of all the preceding muscles of the face. Some of the fibres are connected to the septum nasi, and are by Albinus termed Nasalis Labii Superioris. " Use: To shut the mouth, by contracting and draw- ing both lips together; and to antagonize the muscles inserted into the lips. 11. Depressor Labii Superioris Alaq_ue Nasi, Arises, thin and fleshy, from the os maxillare supe- rius, where it forms the alveoli of the dentes incisivi and dens caninus; thence it runs up under part of the levator labii superioris alaeque nasi. Inserted into the upper lip and root of the ala nasi. It is concealed by the orbicularis oris and levator labii superioris alaeque nasi, but may be discovered by inverting the upper lip, and dissecting on the side of the frenum which connects the lip to the gums. Use: To draw the upper lip and ala nasi down- wards and backwards, and to compress the nostril. 12. The Levator Labii Inferioris or Superbus. Arises from the lower jaw at the root of the alveolus of the lateral incisor. Inserted into the under lip and skin of the chin. These two small muscles are found by the side of the frenum of the lower lip. They lie under the depressor labii inferioris. Use: To raise the under lip and skin of the chin, and to protrude the lip. We have still remaining two strong muscles on the side of the face, and two other muscles concealed by the angle of the inferior maxilla. 1. The Masseter is divided into two portions, which decussate one another. The anterior portion arises, tendinous and fleshy, from the superior maxillary bone, where it joins the os malae; from the lower edge of the os malae, and from its zygomatic process. The strong fibres run obliquely downwards and backwards, and are inserted into the outside of the angle of the lower jaw.- GUIDE TO ANATOMY. 137 The Posterior portion arises, principally fleshy, from the inferior surface of the os malae, and of the whole of the zygomatic process, as far back as the tubercle before the socket for the condyle of the lower jaw. The fibres run forward, and are inserted, tendinous, into the outer surface of the^coronoid process of the lower jaw. The anterior portion conceals almost the whole of the posterior. The greater part of this muscle is superficial. Use: To pull up the lower jaw, for performing the grinding or lateral motions. 2. Temporalis—Arises, fleshy, from a semicircu- lar ridge in the lower and lateral part of the parietal bone, from all the squamous portion of the temporal bone, from the external angular process of the os frontis, from the temporal process of the sphenoid bone, and from an aponeurosis which covers the mus- cle. From these different origins the fibres converge, descend under the bony jugum formed by the zygo- matic processes of the temporal and cheek bones. Inserted, by a strong tendon, into the upper part of the coronoid process of the lower jaw, to which it adheres on every side, but more particularly on its anterior part. Its insertion is concealed by the jugum and by the masseter; so that, to expose it, the masseter must be cut away. Use: To raise the lower jaw. To expose the following muscles, we must remove those of the cheek and jaw; the masseter and the insertion of the temporalis must be taken away, and the coronoid process of the inferior maxilla removed by a saw. 3. The Pterygoideus Externus—Arises, from the outer side of the external plate of the pterygoid process of the sphenoid bone, from part of the tube- 12* 138 LONDON DISSECTOR, OR rosity of the os maxillare adjoining to it, and from the root of the temporal process of the sphenoid bone. It passes backwards and outwards, to be Inserted into a depression in the neck of the condy- loid process of the lower jaw, and into the anterior and inner part of the ligament of the articulation of that bone. This muscle passes almost transversely from the skull to its insertion. It is concealed by the muscles of the face and neck, and by the ascending processes of the lower jaw. Use: When this pair of muscles act together, they bring the jaw horizontally forwards. When they act singly, the jaw is moved forwards, and to the oppo- site side. 4. The Pterygoideus Internus—Arises, tendi- nous and fleshy, from the inner and upper part of the internal plate of the pterygoid process of the sphenoid bone, filling all the space between the two plates; and from the pterygoid process of the os palati between these plates. Inserted, by tendinous and fleshy fibres, into the inside of the angle of the lower jaw. To expose this muscle, the jaw must be removed from its articulating cavity, and then pulled forwards, and toward the opposite side; or it may be sawn across at its sympyhsis, and the other half removed. It is larger than the pterygoideus externus; and betwixt the two muscles there is a considerable quan- tity of cellular membrane, and the trunk of the inferior maxillary and gustatory nerves. Like that muscle, it is concealed by the lower jaw and facial muscles. Along its posterior edge we observe the Ligamentum Laterale Maxillae Inferioris, a ligamentous band, which extends from the back part of the styloid process to the angle of the lower jaw. GUIDE to anatomy. 139 Use: To draw the jaw upwards, and obliquely towards the opposite side, or to move it laterally. On the side of the face is situated a considerable salivary gland, the Parotid Gland, a large white mass, irregularly oblong and protuberant, filling up all the space between the angle and the ascending pro- cesses of the jaw, the mastoid process, root of the cartilage of the ear, and zygomatic process of the temporal bone. From its anterior and upper part a „ white canal or duct passes forwards over the masse- ter, and perforates the buccinator from without inwards, opening into the mouth opposite the first dens molaris. The coats of this duct are very thick and firm, consisting of a ligamentous substance. CHAPTER X. DISSECTION OF THE THROAT. On looking into the mouth, we observe a soft cur- tain hanging from the palate bones, named the Velum Pendulum Palati, or soft Palate. The apex of the velum forms a small projecting glandular body, termed the Uvula, or pap of the throat. From each side of the Uvula, two muscular half arches or columns are sent down, the anterior to the root of the tongue, the posterior to the side of the pharynx. Between these half arches on each side, are situated the glands termed Amygdalas, or tonsils. The common opening behind the anterior arch is named the Fauces, or Top of the Throat, from which there are six passages, two up- wards, being one to each nostril, called the Posterior Nostrils; two at the sides, called Eustachian Tubes, 140 LONDON DISSECTOR, OR passing on each side to the ear;* two downwards, of which the anterior is the passage through the glottis and larynx into the trachea; the posterior, which is the largest, is the pharynx, or top of the oesophagus, and leads to the stomach. MUSCLES SITUATED ABOUT THE ENTRY OF THE FAUCES. These consist of four pairs, and a single muscle in the middle. 1. Constrictor Isthmi Faucium—Arises, by a slender beginning, from the side of the tongue, near its root; thence running upwards within the anterior arch, before the amygdala, it is Inserted into the middle of the velum pendulum pal- ati, as far as the root of the uvula. It is here connected with its fellow, and with the beginning of the palato- pharyngeus. Situation: It forms the anterior half arch. Use: To draw the velum towards the root of the tongue, which at the same time it raises; and, with its fellow, to contract the opening into the fauces. 2. The Palato-Pharyngeus—Arises, by a broad beginning, from the root of the uvula in the middle of the velum pendulum palati, and from the tendinous ex- pansion of the circumflexus palati. The fibres pass along the posterior arch behind the amygdalas, and run backwards to the superior and lateral part of the pha- rynx, where they are scattered, and mixed with those of the stylo-pharyngeus. Inserted into the edge of the upper and back part of * A probe may be introduced through the anterior nostrils into the Eustachian tube; the tube opens into the pharynx in a direction opposite to the space between the roots of the middle and inferior turbinated bones. GUIDE TO ANATOMY. 141 the thyroid cartilage, and into the back part of the pharynx; thus forming the posterior half arch or column. Use: To draw the uvula and velum downwards and backwards, and pull the thyroid cartilage and pharynx upwards; to shut the passage into the nostrils, and, in swallowing, to thrust the food from the fauces into the pharynx. The Salpingo-Pharyngeus of Albinus is composed of a few fibres of this muscle, which arise from the an- terior and lower part of the cartilaginous extremity of the Eustachian tube, and are inserted into the inner part of the last mentioned muscle. 3. The Circumflexus, or Tensor Palati,—Arises, from the spinous process of the sphenoid bone, behind the foramen ovale, and from the Eustachian tube near its osseous part; it runs down along the pterygoideus internus, and forms a round tendon, which passes over the hook of the internal plate of the pterygoid process of the sphenoid bone, and soon spreads into a broad tendinous expansion. Inserted into the velum pendulum palati, and semi- lunar edge of the os palati. Its insertion extends as far as the suture which joins the two ossa palati. Some of its posterior fibres generally join with the constrictor pharyngis superior and palato-pharyngeus. Use: To stretch the velum, and draw it downwards, and to one side. 4. The Levator Palati—Arises, tendinous and fleshy, from the extremity of the petrous portion of the temporal bone, and from the Eustachian tube. Inserted into the whole length of the velum pendu- lum palati, as far as the root of the uvula, uniting with its fellow. Use: To draw the velum upwards and backwards, 142 LONDON DISSECTOR, OR so as to shut the passage from the fauces into the mouth and nose. The single muscle is the AzygosUvula.—It arises, fleshy, from the extrem- ity of the suture which unites the ossa palati; runs down the whole length of the velum, like a small earth-worm, adhering to the tendons of the circum- flexi palati. Inserted into the tip of the uvula. Use: To raise the uvula upwards and forwards, and shorten it. MUSCLES ON THE BACK PART OF THE PHARYNX. Of these there are three pair. 1. The Constrictor Pharyngis Inferior. This muscle arises, from the outside of the ala of the thyroid cartilage, near the attachment of the thyro- hyoideus muscle, and from the side of the cricoid cartilage, near the crico-thyroideus. Inserted into the white line on the back part of the pharynx, where it is united to its fellow. This muscle covers the under part of the middle constrictor; the superior fibres run obliquely upwards, while the inferior fibres have a transverse direction, and surround the oesophagus. Use: To compress that part of the pharynx which it covers, and to raise it with the larynx a little upwards. 2. The Constrictor Pharyngis Medius—Arises from the superior edge of the cornu of the os hyoides, extending as far forwards as the graniform process, or appendix; and from the ligament which connects the os hyoides to the thyroid cartilage. The superior fibres ascend obliquely, the others run more trans- versely. Inserted into the cuneiform process of the os occip- itis, before the foramen magnum, and into a white guide to anatomy. 143 line in the middle of the posterior surface of the pharynx, where it is joined to its fellow. The lower part of this muscle is covered by the muscle last described, while the upper part covers the inferior fibres of the constrictor superior. Use: To compress that part of the pharynx which it invests, and to draw it and the os hyoides upwards. 3. Constrictor Pharyngis Superior—Arises, above, from the cuneiform process of the os occipitis, before the foramen magnum; lower down from the pterygoid process of the sphenoid bone; from the upper and under jaw, near the alveolar processes of the last dentes molares; and from the back part of the buccinator muscle. Some fibres also come from the root of the tongue, and from the palate. Inserted into a white line in the middle of the pos- terior surface of the pharynx. The larger part of this muscle is covered by the constrictor medius. Use: To compress the upper part of the pharynx, and draw it forwards and upwards. MUSCLES OF THE LARYNX. The Larynx is composed of five Cartilages: 1. The Thyroid Cartilage, situated immediately below the os hyoides in the middle of the throat. 2. The Cri- coid Cartilage, situated immediately below the thy- roid cartilage, betwixt it and the superior rings of the trachea. 3. The Epiglottis, a broad triangular cartilage, very elastic, situated behind the root of th» tongue, and covering the entrance into the upper part of the larynx. 4 & 5. The arytenoid cartilages, two small bodies, like peas, situated behind the thyroid cartilage, on the upper edge of the back part of the cricoid cartilage, and between the two alas or wings of the thyroid cartilage. These two small cartilages 144 LONDON DISSECTOR, OR form between themselves and the thyroid a longitu- dinal fissure, extending from before backwards, which is called the Glottis, or Rima Glottidis, and leads to the trachea. The muscles situated about the glottis consist of four pairs of small muscles, and a single one. 1. The Crico-Arytanoideus Posticus—Arises, fleshy, from the posterior part of the cricoid cartilage. Inserted, narrow, into the back part of the arytae- noid cartilage of the same side. Use: To open the rima glottidis a little, and, by pulling back the arytaenoid cartilage, to render the ligament of the glottis tense. 2. The Crico-Arytanoideus Lateralis—Arises, fleshy, from the side of the cricoid cartilage, where it is covered by the ala of the thyroid cartilage. Inserted into the outer side of the arytaenoid carti- lage, lying more forward than the last described muscle. Use: To open the rima glottidis, by pulling the ligaments from each other. 3. The Thyro-Arytanoideus—Arises from the middle and inferior part of the posterior surface of the thyroid cartilage; runs backwards, and a little upwards, and is Inserted into the fore part of the arytaenoid carti- lage, farther forward than the muscle last described. Use: To pull the arytaenoid cartilage forwards, and thus shorten the ligament of the larynx or glottis. 4. Arytanoideus Oblio.uus—Arises from the base of one arytaenoid cartilage; and, crossing its fellow, is Inserted into the tip of the other arytaenoid carti- lage. Use: When both act, they pull the arytaenoid carti- lages towards each other. The single muscle is the Arytanoideus Transversus, which arises from GUIDE TO ANATOMY. 145 the whole length of one arytasnoid cartilage, and passes across to be Inserted into the whole length of the other arytasnoid cartilage. It is situated anterior to the arytaenoidei obliqui. Use: To shut the rima glottidis, by bringing the arytaenoid cartilages together: On each side of the larynx, there are also a few mus- cular fibres, which are named as follows. 1. Thyro-Epiglottideus—Arising, by a few pale separated fibres from the thyroid cartilage, and Inserted into the side of the epiglottis. Use: To draw the epiglottis obliquely downwards, or, when both muscles act, directly downwards; and at the same time to expand it. 2. The Arytano-Epiglottideus—Arises, by a few slender fibres, from the lateral and upper part of the arytaenoid cartilage, and is Inserted into the epiglottis, along with the former muscle. Use: When both muscles act, to pull the epiglottis close upon the glottis. 13 CHAPTER XI. DISSECTION OF THE ORBIT OF THE EYE. The globe or ball of the eye is situated about the middle of the orbit. It is connected to the bone by its muscles, and by the optic nerve; and all these parts are embedded posteriorly in a soft, fatty substance, which fills up the bottom of the orbit. The tunica, or mem- brana conjunctiva, is seen lining the inner surface of the eye-lids, and reflected from them over the anterior part of the globe of the eye, so that the back part of the eye-ball, and all the muscles and nerves, are situated behind it. This membrane must therefore be dissected away; the upper part of the orbit, which is formed by the os frontis, must be removed with a sawr, and the fat surrounding the muscles, vessels, and nerves, cau- tiously dissected away with the scissors. muscles situated within the orbit. Seven muscles are contained within the orbit, of which one belongs to the upper eye-lid, and six to the globe of the eye. 1. The Levator Palpebra Superioris—Arises, by a small tendon, from, the upper part of the foramen opticum of the sphenoid bone; the tendon forms a broad flat belly. Inserted, by a broad thin tendon, into the upper eye- lid, adhering to the tarsal cartilage, which gives form to the eye-lid. ✓ GUIDE TO ANATOMY. 147 Use: To open the eye, by drawing the superior eye-lid upwards. There are four straight muscles, or recti, belonging to the globe of the eye. These four muscles resemble each other, all arising by narrow tendons from the mar- gin of the foramen opticum, where they surround the optic nerve; all forming strong fleshy bellies, and in- serted, by broad, thin tendons, at the fore part of the globe of the eye, into the tunica sclerotica, or outer tunic of the eye, and under the tunica conjunctiva. They are distinguished from each other by the terms Levator, Depressor, Abductor and Adductor. 2. The Levator Oculi—Arises, by a narrow ten- don, from the upper part of the foramen opticum of the sphenoid bone; it forms a fleshy belly, and is Inserted into the superior and anterior part of the tunica sclerotica, by a broad thin tendon. It lies below the levator palpebrae superioris, and raises the globe of the eye. 3. The Depressor Oculi—Arises from the inferior margin of the foramen opticum, and is Inserted into the inferior and anterior part of the tu- nica sclerotica. Use: To move the globe of the eye downwards. 4. The Adductor Oculi—Arises from the inner part of the foramen opticum, and is Inserted into the inner and anterior part of the tunica sclerotica. It is the shortest of the four recti muscles, and draws the eye towards the nose. 5. The Abductor Oculi—Arises from the outer part of the foramen opticum. Inserted into the outer part of the tunica sclerotica. It is the longest of the recti, and moves the globe outwards. The next two are the oblique muscles. 148 LONDON DISSECTOR, OR 6. The OBLiauus Superior, or Trochlearis, Arises, by a small tendon, from the margin of the foramen op- tipum, between the levator and abductor oculi. Its long slender belly runs along the inner side of the orbit to the internal angular process of the os frontis, where a cartilaginous pulley is fixed. The muscle then forms a tendon, which passes through the pulley, runs ob- liquely doAvnwards and outwards, inclosed in a mem- branous sheath; and becoming broader and thinner, is Inserted into the tunica sclerotica, about half way between the insertion of the levator oculi, and the entrance of the optic nerve. Use: To roll the globe of the eye, and turn the pupil downwards and outwards. 7. The OBLiauus Inferior—Arises, narrow, and principally tendinous, from the outer edge of the orbitar process of the superior maxillary bone, near its junction with the os unguis. It runs obliquely out- wards and backwards, under the depressor oculi, and is Inserted, by a broad thin tendon, into the sclerotica, between the entrance of the optic nerve, and the insertion of the abductor oculi. Use: To draw the globe of the eye forwards, inwards, and downwards, and to turn the pupil upwards. In the orbit, we also meet with the Lachrymal Gland.—This gland is of a yellowish color; it is situ- ated in a depression of the os frontis near the temple. It adheres closely to the fat which surrounds the mus- cles and posterior convexity of the eye. , It sends off several small ducts which pierce the tunica conjunctiva lining the upper eye lid; these ducts cannot be seen, unless the part be macerated in water, when they are filled with the liquid. The Puncta Lachrymalia are two small holes near the internal angle of the palpebrae, situated one in each eye-lid. They lead into the Lachrymal Sac. / guide to ANATOMY. 14U This sac is an oblong membranous bag, situated at the inner angle of the eye, in a depression formed by the ■os unguis, and nasal process of the superior maxillary bone. It receives the tears by the puncta lachrymalia, and from the sac they are conveyed into the nose by a Duct, named the Lachrymal, or Nasal. The lower extremity of this duct opens into the nose on one side of the antrum maxillare, and under the os spongiosum inferius. A probe, with its extremity bent, may be introduced from the nose through this duct into the lachrymal sac. The Caruncula Lachrymalis is a small reddish granulated body, situated at the internal angle of the palpebrae. CHAPTER XII. DISSECTION OF THE MUSCLES ON THE POSTERIOR PART OF THE TRUNK AND NEC K. From the number and intimate connection of these muscles, their description is necessarily complicated, and their dissection difficult. The smaller muscles, indeed, cannot be separated without dividing some of their fibres. We do not here, as in the limbs, find the muscles distinctly marked, loosely connected by cellular membrane, and separated with facility; but closely united, and in many places having their fibres so intermixed, as to render their divisions indis- tinct and uncertain. In this dissection we meet with twenty-two distinct pairs of muscles, besides a number of small muscles situated between the processes of contiguous vertebrae. 13* 150 LONDON DISSECTOR, OR On removing the integuments of the posterior part of the neck and back, which may be done by making an incision along the whole length of the spine, another from the tubercle of the occipital bone to the acromion, and a third from the acromion to the last dorsal ver- tebra; we expose, 1. The Trapezius, or Cucullaris.—It arises, by a thick round tendon, from the lower part of the pro- tuberance in the middle of the os occipitis behind, and, by a thin tendinous expansion, from the superior trans- verse ridge of that bone; from the five superior cervi- cal spinous processes by the ligamentum nuchae; tendi- nous, from the two inferior cervical spinous processes, and from the spinous processes of all the vertebrae of the back. The fleshy fibres coming from the neck descend obliquely, while those from the back ascend. Inserted, fleshy, into the posterior third part of the clavicle; tendinous and fleshy, into the acromion, and into the upper edge of all the spine of the scapula. The fibres slide over a triangular surface at the extremity of the spine of that bone. Situation: This muscle is quite superficial, and con- ceals all the muscles situated in the posterior part of the neck, and upper part of the back. It adheres to its fellow the whole length of its origin. Its anterior fibres lie posterior to those of the sterno-mastoideus, but are not in contact with them, a considerable quan- tity of adipose substance being interposed. The pos- terior cervical ligament (ligamentum nuchae vel colli) is a ligament which arises from the middle of the occipital bone, runs down on the back part of the neck, adhering to the spinous processes of the cervical ver- tebras, and giving origin to the fibres of the trapezius, and of other muscles. Use: To move the scapula in different directions. The superior fibres draw it obliquely upwards, the middle transverse ones draw it directly backwards, GUIDE TO ANATOMY. 151 and the inferior fibres move it obliquely donwnwards and backwards. Also, to draw back the head, and contribute to its rotatory motions. This muscle should now be reflected from the spine and head. 2. The Latissimus Dorsi—Arises, by a broad thin tendon, from all the spinous processes of the os sacrum, and of the lumbar vertebrae; from the spinous processes of the seven inferior dorsal vertebrae; from the poste- rior part of the spine of the os ilium; also from the ex- tremities of the four inferior false ribs, by four distinct fleshy digitations, which intermix with those of the obliquus externus abdominis. The inferior fleshy fibres ascend obliquely; the superior run transversely: they pass over the inferior angle of the scapula (from which the muscle often receives a thin fasciculus of fibres,) to reach the axilla, where they are all collected and twisted. Inserted,hy a strong flat tendon, into the inner edge of the groove in the os humeri, which receives the long - tendon of the biceps flexor cubiti. Where this muscle arises from the dorsal vertebrae, it is concealed by the origin of the trapezius. The remainder of it is placed immediately under the skin, and covers the deeper seated muscles of the loins and back. It is situated superior to the gluteus maximus, and posterior to the obliquus externus abdominis. Its insertion cannot be traced till the muscles of the arm are dissected; it forms the fold on the posterior part of the hollow of the arm pit. The tendon of this muscle, with the subjacent tendon of the serratus posticus inferior, assists in forming the fascia lumborum. Use: To pull the arm backwards and downwards, and to roll the os humeri. Having removed the trapezius and latissimus dorsi, two muscles will be seen passing from the neck to the scapula. 152 LONDON DISSECTOR, OR 3. The Rhomboideus. This muscle is divided into two portions, rhomboideus major and minor. Rhomboideus major (the inferior portion) arises, ten- dinous, from the spinous processes of the four or five superior dorsal vertebrae. Inserted into all the base of the scapula below its spine. Rhomboideus minor (the superior portion) arises, tendinous from the spinous processes of the three in- ferior vertebrae of the neck, and from the ligamentum nuchae. Inserted into the base of the scapula, opposite to the triangular plain surface at the root of the spine. Situation: This muscle lies beneath the trapezius and latissimus dorsi; a small part of the rhomboideus major may be seen between these muscles, and the inferior part of the base of the scapula. Use: To draw the scapula obliquely upwards, and directly backwards. The rhomboidei should now be reflected from the spine. 4. The Levator Scapula—Arises from the trans- verse processes of the five superior vertebrae of the neck, by five distinct, tendinous, and fleshy slips, which unite and form a considerable muscle. Inserted, tendinous and fleshy, into the base of the scapula, above the root of the spine, and under the superior angle (not into the angle itself, as it is usually described.) This muscle is concealed by the trapezius and ster- no-mastoideus; but a small part of its belly may be seen in the space between the edges of these muscles. The origin of the levator scapulae is partly cocealed by the splenius capitis; and the digitations, where they arise from the transverse processes, lie betwixt similar attachments of the scaleni muscles before, and of the splenius colli behind. GUIDE to anatomy. 153 Use: To draw the scapula upwards, and a little forwards. Detaching the rhomboideus from its origin in the spine, you will see another muscle passing from the whole of the basis of the scapula. 5. The Serratus Magnus, or Serratus Major An- ticus—Arises by nine fleshy digitations, from the nine superior ribs. These digitations are seen on the anterior part of the thorax; they pass obliquely backwards, and form a strong fleshy muscle. Inserted, principally fleshy, into the whole of the base of the scapula. This muscle lies between the scapula and the ribs, so that, to see its course, the articulation of the clavi- cle to the sternum should be divided, and the scapula lifted from the trunk. It is concealed by the latissimus dorsi, by the two pectoral muscles, and the scapula. The only part of it which can be seen before the removal of those muscles, projects betwixt and below them on the side of the trunk. The lower digitations, which pass more anteriorly than the edge of the latis- simus dorsi, are intermixed with the superior digita- tions of the obliquus externus abdominis. The superior digitations arise behind the pectoralis minor. The insertion of the muscle is between the subscapularis, which arises from the internal surface of the scapula, and the insertions of the rhomboideus and levator scapulae. Use: To move the scapula forwards, and, when the scapula is forcibly raised, to draw the ribs upwards. The upper extremity may now be removed from the trunk. The removal of the rhomboideus also exposes, 6. The Serratus Superior Posticus. This mus- cle arises, by a thin broad tendon, from the spinous processes of the three inferior cervical vertebras, and of the two superior dorsal. 154 LONDON DISSECTOR, OR Inserted, by distinct fleshy slips, into the second, third, fourth, and sometimes the fifth ribs, a little beyond their angle. This muscle is concealed by the rhomboideus and scapula, except a few of its superior fibres, which appear above the upper edge of the rhomboideus minor. It covers part of the origin of the splenius. Use: To elevate the ribs, and dilate the thorax. Reflect it from the spine. 7. The Splenius is divided into two portions: (1.) The Splenius Capitis—Arises, tendinous, from the spinous processes of the two superior dorsal, and five inferior cervical vertebrae. It forms a flat broad muscle, which ascends obliquely, and is inserted, ten- dinous, into the posterior part of the mastoid process, and into a small part of the os occipitis, immediately below its superior transverse ridge. This muscle is covered by the trapezius, and by the insertion of the sterno-cleido-mastoideus, and a small part of it is seen on the side of the neck betwixt those two muscles. The lower part of its origin is covered by the serratus superior posticus. Reflect it from the occiput. (2.) The Splenius Colli—Arises, tendinous, from the spinous processes of the third, fourth, fifth, and some- times the sixth dorsal vertebrae. It forms a small fleshy belly, which ascends by the side of the verte- brae, and is inserted into the transverse processes of the four or five superior cervical vertebrae, by distinct tendons, which lie behind similar tendons of the leva- tor scapulae. This muscle is concealed by the serratus superior posticus, and splenius capitis. Use: To bring the head and upper vertebrae of the neck obliquely backwards. When both muscles act, they pull the head directly backwards. Reflect it from the dorsal vertebrae. GUIDE TO ANATOMY. 155 8. The Serratus Posticus Inferior—Arises,hy a broad thin tendon, from the spinous processes of the two or three inferior dorsal vertebrae, and from the three superior lumbar spines by the fascia lumborum. Inserted, by distinct fleshy slips, into the lower edges of the four inferior ribs, at a little distance from their cartilages. This is a thin muscle, of considerable breadth, situated at the lower part of the back, under the middle of the latissimus dorsi. Use: To pull the ribs downwards and backwards. Reflecting it from the spine, you expose the Fascia Lumborum. It is a tendinous fascia, arising from the lumbar vertebrae and os sacrum, giving origin to the lower part of the serratus posticus inferior, and to the posterior fibres of the obliquus internus and transver- salis abdominis. It is also connected with the tendon of the latissimus dorsi. On detaching from the spine, this fascia, and the serratus posticus inferior, we expose a thick muscular mass, filling up all the space betwixt the spinous pro- cesses of the vertebrae, and the angles of the ribs. This mass consists of three muscles: The Sacro-Lumbalis on the outside, the Longissi- mus Dorsi in the middle, and the Spinalis Dorsi close to the spinous processes. These three muscles are closely connected together; so that, to effect their separation, it is necessary to divide some of the fibres. 9 and 10. The Sacro-Lumbalis and Longissimus Dorsi—Arise, by one common origin, tendinous externally, and fleshy internally, from the spinous processes and posterior surface of the os sacrum; from the posterior part of the spine of the os ilium; from the spinous processes, and from the roots of the transverse processes of all the lumbar vertebrae. The thick fleshy belly, formed by this extensive 156 LONDON DISSECTOR, OR origin, ascends, and, opposite to the last rib, divides into the two muscles. The sacro-lumbalis is inserted into all the ribs near their angles, by long and thin tendons. The tendons which pass to the superior ribs, are longer, ascend in nearly a straight line, and are situated nearer to the spine than those which pass to the lower ribs. On separating the inner edge of this muscle (i. e. the edge next to the spine) from the latissimus dorsi, and turn- ing the belly towards the ribs, we see six or eight small tendinous and fleshy bundles, which pass from the inner side of this muscle, to be inserted into the upper edge of the six or eight inferior ribs. These are called the Musculi Accessorii ad Sacro-Lumbalem. Use: To pull the ribs downwards, to assist in erect- ing the trunk of the body, and in turning it to one side. The longissimus dorsi is inserted into all the ribs except the two inferior, betwixt their tubercles and angles, by slips which are tendinous and fleshy, and into the transverse processes of all the dorsal vertebrae by small double tendons. The insertions in the ribs proceed from the outer side of the muscle, while the attachments to the transverse processes are seen on separating the longissimus dorsi from the spi- nalis dorsi. Use: To extend the vertebrae, and keep the body erect. 11. The Spinalis Dorsi is much smaller than the last two muscles; below, it cannot be separated from the longissimus dorsi, Avithout dividing some fibres; it lies betwixt that muscle and the spine. Arises, tendinous, from the spinous processes of the two superior lumbar vertebrae, and of the three inferior dorsal. Inserted into the spinous processes of the vertebrae of the back, from the second to the ninth, by as many distinct tendons. guide to anatomy. 157 Use: To extend the vertebrae, and to assist in raising the spine. The three last described muscles are covered below by the serratus posticus inferior and the latis- simus dorsi; above, by the rhomboideus, serratus superior posticus, and trapezius. 12. The Cervicalis Descendens—Arises, from the upper edge of the four or five superior ribs, by as many distinct tendons. It forms a small belly, which ascends upwards, and is Inserted, by three distinct tendons, into the trans- verse processes of the fourth, fifth, and sixth cervical vertebrae, between the splenius colli and levator scap- ulae. This muscle is small, and is frequently de- scribed as an appendage to the sacro-lumbalis. Use: To turn the neck obliquely backAvards. 13. The Transversalis Colli—Arises from the transverse processes of the five superior dorsal verte- brae, by five tendinous and fleshy slips, and is Inserted, tendinous, into the transverse processes of the five or six inferior cervical vertebrae. The origin of this muscle lies on the inside of the longissimus dorsi, and it is sometimes considered as an appendage to it. The insertion is situated between the cervicalis descendens and the trachelo-mastoideus. Use: To turn the neck obliquely backwards, and a little to one side, 14. The Trachelo-Mastoideus lies nearer to the bone than the last described muscle. Arises from the transverse processes of the three uppermost vertebrae of the back, and of the five inferior of the neck, by thin tendons, Avhich unite and form a fleshy belly. Inserted, tendinous, into the posterior surface of the mastoid process. This muscle lies on the outside of the complexus, and on the inside of the transversalis colli; its insertion 14 158^ LONDON DISSECTOR, OR is concealed by the splenius capitis; it is covered also by the levator scapulas. Use: To keep the head and neck erect, and to draAV the head backAvards, and to one side. 15. The Complexes—Arises, by tendinous and fleshy fibres, from the transverse processes of the seven superior dorsal, and of the four or five inferior cervical vertebras. It forms a thick, tendinous, and fleshy belly. Inserted, tendinous and fleshy, into the holloAV betAvixt the tAvo transverse ridges of the os occipitis, extending from the middle protuberance of that bone, nearly as far as the mastoid process. This is a large muscle. Its origin from the cervical vertebrae is nearer to the spine than the trachelo-mas- toideus; and in the back, it arises nearer to the spine than the trans\Tersalis colli; it is covered by the sple- nius; but a large portion of it is seen between the splenius and spine, immediately on removing the trapezius. Use: To draAV the head backAvards and to one side. On removing the complexus from the occiput, Ave find, close to the spine, 16. The Semi-Spinalis Colli.—It arises by dis- tinct tendons, from the transverse processes of the six superior dorsal vertebras, ascends obliquely close to the spine, and is Inserted into the spinous processes of all the verte- bras of the neck, except the first and last. This muscle is situated close to the vertebrae at the posterior part of the neck and back. It arises on the outside of the semi-spinalis dorsi; its greater part, is concealed by the complexus and longissimus dorsi; and the part Avhich projects betAveen these muscles, is concealed by the serratus superior posticus. Use: To extend the neck obliquely backAvards. 17. Semi-Spinalis Dorsi—Arises from the trans- GUIDE TO ANATOMY. 159 verse processes of the seventh, eighth, and ninth ver- tebrae of the back, by distinct tendons which soon grow fleshy. Inserted, by distinct tendons, into the spinous pro- cesses of the five superior dorsal vertebrae, and of the tAAro loAver cervical. This muscle lies nearer the spine than the lower part of the semi-spinalis colli; its inferior origins lie on the outside of the insertion of the spinalis dorsi. Use: To extend the spine obliquely backwards. The removal of the complexus brings also into view several small muscles, situated at the superior part of the neck, immediately beloAv the occiput. 18. The Rectus Capitis Posticus Major— Arises, fleshy, from the side of the spinous process of the dentata. It ascends obliquely outwards, becoming broader, and is Inserted, tendinous and fleshy, into the inferior transverse ridge of the os occipitis, and into part of the concavity above that ridge. Use: To extend and pull the head backAvards, and to assist in its rotation. 19. The Rectus Capitis Posticus Minor— Arises, tendinous andnarroAV, from an eminence in the middle of the back part of the atlas. It becomes broader, and is Inserted, fleshy, into the inferior transverse ridge of the os occipitis, and into the surface betAvixt that ridge and the foramen magnum. It is partly covered by the rectus capitis posticus major; but a large portion of this pair of muscles is seen projecting between the recti majores, and is situated beneath the complexus. Use: To draw the head backwards. 20. Obmquus Capitis Superior—Arises, tendi- nous, from the upper and posterior part of the trans- verse process of the first cervical vertebra. 160 LONDON DISSECTOR, OR Inserted, tendinous and fleshy, into the inferior transverse ridge of the os occipitis behind the mastoid process, and into a small part of the surface above and below that ridge. Use: To draw the head backAvards, and to assist in rolling it. 21. OBLiauus Capitis Inferior—Arises, from the side of the spinous process of the dentata, forms a thick belly, and is Inserted into the under and back part of the trans- verse process of the atlas. Use: To rotate the head, by turning the first ver- tebra upon the second. 22. The Multifidus Spina. On removing the muscles of the spine wdiich have been described, we find situated beneath them the Multifidus Spinas. It is that mass of flesh which lies close to the spinous and transverse processes of the vertebrae, extending from the dentata to the os sacrum. The bundles of Avhich it is composed seem to pass from the transverse, to be inserted into the spinous processes. Arises, tendinous and fleshy, from the spinous pro- cesses and back part of the os sacrum, and from the posterior adjoining part of the os ilium; from the ob- lique and transverse processes of all the lumbar verte- brae; from the transverse processes of all the dorsal vertebras; and from those of the cervical vertebrae, excepting the first three. The fibres arising from this extensive origin pass obliquely, to be Inserted, by distinct tendons, into the spinous pro- cesses of all the vertebrae of the loins and back and neck, except the atlas. The fibres arising from each vertebra are inserted into the second one above it, and sometimes more. Use: To extend the back obliquely, or move it to one side. When both muscles act, they extend the Aertebras backwards. guide to anatomy. 161 The small muscles situated between the processes of the vertebrae are, 1. Interspinales colli, dorsi, et lumborum. These are small bundles of fibres, which fill up the spaces between the spinous processes of the vertebrae. Each of these little muscles arises from the surface of one spinous process, and is inserted into the next spinous process. In the neck they are large, and appear double, as the spinous processes of the cervical vertebrae are bifurcated. In the back and loins they are indis- tinct, and are rather small tendons than muscles. Use: To draw the spinous processes nearer to each other. 2. The Intertransversalis colli, dorsi, et lum- borum, are small muscles Avhich fill up, in a similar manner, the spaces betAveen the transverse processes of the vertebrae. In the neck they are bifurcated and distinct; in the back they are small and slender, and in the loins they are strong and fleshy. Use: To draw the transverse processes towards each other. 14* CHAPTER XIII. DISSECTION OF THE MUSCLES SITU- ATED BETWEEN THE RIBS, AND ON THE INNER SURFACE OF THE STERNUM. The muscles which fill up the space between the ribs are named Intercostals; they are disposed on each side of the thorax in two layers; and each layer consists of eleven muscles. The Intercostales Externi—Arise from the inferior acute edge of each superior rib, extending from the spine to near the junction of the ribs with their cartilages. The fibres run obliquely forwards and downAvards, and are Inserted into the upper obtuse edge of each inferior rib, from the spine to near the cartilage of the rib. These muscles are seen on removing the muscles Avhich cover the thorax. The Levatores Costarum are twelve small muscles, situated on each side of the dorsal vertebrae. They are portions of the external intercostals. Each of these small muscles arises from the transverse pro- cess of one of the dorsal vertebrae, and passes down- Avards, to be inserted into the upper side of the rib next beloAV the vertebra, near its tuberosity. The first of these muscles passes from the last cer- vical vertebra, the eleven others from the eleven superior dorsal vertebrae. The three or four inferior Levatores are longer, and run down to the second rib GUIDE TO ANATOMY. 163 below the transverse process from which they arise. Hence Albinus names them the Levatores Costarum, Longiores et Breviores. 2. The Intercostales Interni—Arise from the inferior acute edge of each superior rib, beginning at the sternum, and extending as far as the angle of the rib. The fibres run obliquely downwards and back- wards, and are Inserted into the superior obtuse edge of each infe- rior rib from the sternum to the angle. Portions of the internal intercostals pass over one rib, and are inserted into the next beloAV it. Thus the intercostal muscles decussate, and are double on the sides of the thorax; but, from the spine to the angles of the ribs, there are only the external intercostals, and, from the cartilages to the sternum, only the internal, and some cellular membrane cover- ing them. The Avhole of the internal intercostals, and the back part of the external, are lined by the pleura. Use: To elevate the ribs, by causing them to approxi- mate, and thus to enlarge the cavity of the thorax. There is a pair of muscles situated on the inner surface of the sternum, viz: The Triangularis Sterni, or Sterno-Costahs,— Arises, tendinous and fleshy, from the edge of the whole cartilago ensiformis, and from the edge of the lower half of the middle bone of the sternum. The fibres ascend obliquely upAvards and outAvards, and form a flat muscle, Avhich is Inserted, by three or four triangular fleshy and ten- dinous terminations, into the cartilages of the third, fourth, fifth, and sixth ribs. This muscle lies on the inside of the ribs and sternum, and is lined by the pleura. Use: To depress the cartilages and the bony extremities of the ribs, and consequently to assist in lessening the cavity of the thorax. CHAPTER XIV. DISSECTION OF THE MUSCLES SITUATED ON THE ANTERIOR PART OF THE NECK, CLOSE TO THE VERTEBRA. Four pair of muscles are here situated. 1. The Longus Colli—Arises, tendinous and fleshy, from the sides of the bodies of the three supe- rior dorsal vertebrae, and from the anterior surface of the transverse processes of the four or five lower cervical vertebrae. Inserted, tendinous and fleshy, into the fore part of the bodies of all the vertebrae of the neck. This muscle lies behind the oesophagus, and the great vessels and nerves of the neck. Use: To bend the neck forwards, and to one side. 2. The Rectus Capitis Internus Major— Arises, tendinous and fleshy, from the anterior points of the transverse processes of the third, fourth, fifth, and sixth cervical vertebras. It forms a considerable fleshy belly. Inserted into the cuneiform process of the os occip- itis a little before the condyloid process. This muscle lies before the scaleni, and more outwardly than the longus colli, over part of wrhich it passes. Use: To bend the head forwards. 3. The Rectus Capitis Internus Minor__ Arises, fleshy, from the fore part of the body of the atlas, near its transverse process; and, ascending obliquely, is guide to anatomy. 165 Inserted near the root of the condyloid process of the occipital bone, under the last described muscle. Use: to bend the head forwards. 4. The Rectus Capitis Lateralis—Arises, fleshy, from the anterior and upper part of the transverse process of the atlas. Inserted, tendinous and fleshy, into a scabrous ridge of the os occipitis, which extends from the condyloid process of that bone tOAvards the mastoid process. It is situated immediately behind the internal jugular vein, where it comes out from the cranium. Use: To pull the head a little to one side. Besides these muscles, we meet also with 1. The Scalenus Anticus—Arises, by three ten- dons, from the transverse processes of the fourth, fifth, and sixth vertebrae of the neck. Inserted, tendinous and fleshy, into the upper edge of the first rib, near its cartilage. 2. The Scalenus Medius—Arises, tendinous, from the transverse processes of all the vertebrae of the neck. Inserted into the upper and outer part of the first rib, from its root to within the distance of half an inch from the scalenus anticus. The nerves to the superior extremity pass between this muscle and the former. 3. The Scalenus Posticus—Arises, tendinous, from the transverse processes of the fifth and sixth vertebrae of the neck. Inserted into the upper edge of the second rib, near the spine. These muscles are covered before by the sterno- mastoideus and trapezius, behind by the trapezius and levator scapulae; but the scaleni are so connected Avith the muscles of the spine, that the whole of them cannot be demonstrated till the muscles of the back and neck are dissected. 166 LONDON DISSECTOR, OR Use of these three muscles: To bend the neck to one side, and, when the muscles of both sides act, to bend it fonvards; or, when the neck is fixed, to elevate the ribs, and dilate the chest. We have given the description of the three parts, but it is proper to remark that some anatomists of eminence regard it as one triangular muscle. CHAPTER XV. DISSECTION OF THE SUPERIOR EXTREMITY. SECTION. I. OF THE SHOULDER AND ARM. In the thigh Ave saw a strong fascia, arising from the neighbouring bones and ligaments, firmly investing the muscles, and giving origin to some of their fibres; but, on removing the integuments of the shoulder and arm, Ave meet Avith no regular fascia. The muscles, like those on the outside of the thorax, are covered by condensed cellular substance, Avhich might be taken for a thin aponeurosis; but which is Avidely different in its nature, and ought to be regularly dissected off Avith the integuments. There are ten muscles situated on the shoulder and the humerus. 1. The Deltoides—Arises, tendinous and fleshy, from the posterior third of the clavicle, from the Avhole edge of the acromion, and from the loAver margin of GUIDE TO ANATOMY. 167 the whole spine of the scapula. From these several origins the fibres run in different directions, and con- verge. Those arising from the clavicle run outAvards and dowmvards: those from the spine of the scapula outAvards, fonvards, and doAvnwards; and those from the acromion directly dowmvards. Inserted, tendinous, into a triangular rough surface on the outer side of the os humeri, near its middle. This muscle is entirely superficial, except Avhere the thin fibres of the platysma myoides arise from its anterior surface. It forms a strong coarse muscle, and covers the whole of the fore part and outside of the shoulder joint. Use: To draw the arm directly upAvards, and to move it a little fonvards or backAvards, according to the different directions of its fibres. Having reflected this muscle from the scapula and clavicle, you Avill expose more completely the muscles on the dorsum of the former bone. They fill up the posterior surface of the scapula', and are covered by a fascia, Avhich adheres to the spine and edges of that bone. On dis- secting off this fascia, the fleshy fibres of the muscles will be found arising from its inner surface. 2. The Supra-Spinatus—Arises, fleshy, from all that part of the base of the scapula Avhich is above its spine; from the superior costa as far fonvards as the semilunar notch; from the spine itself, and from the concave surface betAvixt it and the superior costa. The fleshy fibres, as they approach the neck of the scapula, terminate in a tendon Avhich passes under the acromion, slides over the neck of the scapula (to Avhich it is connected by loose cellular membrane,) adheres to the capsular ligament of the shoulder-joint, and is Inserted into the anterior and superior part of the great tuberosity near the head of the os humeri. Use: To raise the arm. 3. The Infra-Spinatus, Arises, principally fleshy, 168 LONDON DISSECTOR, OR from the loAver part of the spine of the scapula as far back as the triangular flat surface; from the base of the bone beloAV the spine to near the inferior- angle; from the posterior ridge of the inferior costa; and from all the dorsum of the bone below the spine. The fibres ascend and descend toAvards a middle tendon, AA'hich runs fonvards over the neck of the bone, and adheres to the capsular ligament. Inserted, by a strong short tendon, into the middle part of the great tuberosity of the os humeri. Use: To roll the humerus outAvards, to assist in raising the arm, and in moving it outAvards when raised. 4. The Teres Minor—Arises, fleshy, from the inferior costa of the scapula, extending from the neck of the bone to within an inch or tAVO of the inferior angle. It passes forwards along the inferior edge of the infra-spinatus, adheres to the capsular ligament of the shoulder-joint, and is Inserted, tendinous and fleshy, into the loAver and back part of the great tuberosity of the os humeri. Use: To draAV the humerus dowmvards and back- wards, and to roll it outwards. 5. The Teres Major—Arises, from an oblong, rough, flattened surface, at the inferior angle of the scapula. It forms a thick belly, wrhich passes for- wards and upwards towards the inside of the arm. Inserted, by a broad thin tendon, into the ridge of the os humeri, at the inner side of the groove for lodging the tendon of the long head of the biceps flexor cubiti; its tendon is inserted along with the tendon of the latissimus dorsi. Use: To roll the humerus inwards, and to draw it backwards and doAvnwards. 6. The Subscapulars—Arises, fleshy, from all the base of the scapula internally; from the superior and inferior costae; and from the whole internal surface GUIDE TO ANATOMY. 169 of the bone. It consists of tendinous and fleshy bun- dles, which converge, slide over the inner surface of the neck of the scapula, pass in the hollow under the root of the coracoid process, and adhere to the inner part of the capsular ligament of the shoulder joint. Inserted, by a strong tendon, into the less tuberosity near the head of the os humeri. The whole of this muscle is concealed by the scapula and muscles of the shoulder. It lies betAvixt that bone and the serratus magnus. Use: To roll the os humeri inwards, and to draw it" to the side of the body. 7. The Biceps Flexor Cubiti—Arises by tAvo heads. The first and outermost, called the Long Head, arises, by a strong tendon, from a smooth sur- face in the upper edge of the glenoid cavity of the scapula. It passes over the head of the os humeri, within the capsular ligament of the shoulder-joint, and enters a groove betwixt the two tuberosities of that bone. It forms a strong fleshy belly. The second and innermost, called the Short Head, arises, tendi- nous, from the lower part of the coracoid process of the scapula, in common with the coraco-brachialis, and sends off a fleshy belly. These tAvo fleshy bellies are at first only connected by condensed cellular membrane. They form a thick mass, and, below the middle of the arm, become in- separably united. They send off a strong tendon, Avhich is at first broad, but soon becomes rounder, and passes over the fore part of the elbow-joint. It then slides over the cartilaginous middle surface of the tubercle at the upper end of the radius, and is Inserted into the posterior and internal rough part of that tubercle; and by a lateral slip of fascia into the sheath of the fore arm. The belly of the, muscle is immediately under the 15 170 LONDON DISSECTOR, OR integuments, and so is the tendon where it passes over the elboAV-joint. Use: To turn the hand supine, to bend the fore-arm on the arm, and the arm on the shoulder. 8. The Coraco Brachialis—Arises, tendinous and fleshy, from the middle part of the apex of the cora- coid process of the scapula. Its fibres, as it descends, also arise from the edge of the short tendon of the bi- ceps flexor cubiti. It forms a flat fleshy belly which is always perforated by the nerve, named Musculo- Cutaneus. Inserted, tendinous and fleshy, about the middle of the internal part of the os humeri, into a rough ridge. Use: To move the arm upAvards and forAvards. 9. The Brachialis Internus—Arises from the middle of the os humeri, by two fleshy slips, which pass on each side of the insertion of the deltoid muscle; fleshy from all the fore part of the bone below, nearly as far as the condyles. The fibres converge, pass over the elbow-joint, and adhere to the capsular ligament. Inserted, by a strong short tendon, into the rough surface immediately beloAV the coronoid process of the ulna. Use: To bend- the fore-arm. 10. The Triceps Extensor Cubiti is the great muscle Avhich covers all the back part of the arm. It arises by three heads. The first, or long head, by a broad tendon, from the inferior costa of the scapula near its cervix; this forms a large belly, which covers the back part of the os humeri. The second, or short head, arises, on the outer and back part of the os hu- meri, from a ridge which runs from the back part of the great tuberosity towards the outer condyle. The third head, called Brachialis Externus, arises by an acute beginning, from the inside of the os humeri above its middle, and from a ridge extending to the inner condyle. GUIDE TO ANATOMY. 171 The three heads unite above the middle of the os humeri, and invest the whole back part of the bone. They form a thick strong tendon, AArhich is Inserted into the Olecranon, and partly into the condyles of the os humeri, adhering firmly to the cap- sular ligament. The tendon of the triceps sends off a thin fascia, which covers the triangular surface of the ulna, on which we commonly lean. Numerous fibres are also sent off to assist in forming the fascia of the fore-arm. Use: To extend the fore-arm. The long head will also assist in draAving the arm backwards. The Anconeus is a small triangular muscle, situated at the outer side of the olecranon, immediately under the integuments. It arises, tendinous, from the posterior and loAver part of the external condyle of the os humeri; forms a thick triangular fleshy mass, adhering to the capsular ligament of the elboAv-joint, and is Inserted into the concave surface on the outside of the olecranon, and into the posterior edge of the ulna. This muscle lies betwixt the upper part of the ex- tensor carpi ulnaris and the olecranon. It is partly covered by the tendon of the triceps extensor cubiti, and is enveloped in a fascia sent off from that tendon. Use: To assist in extending the fore-arm. SECTION II. DISSECTION OF THE FASCIA AND MUSCLES SITUATED ON THE CUBIT OR FORE ARM.* On removing the integuments of the fore-arm, Ave find, as in the leg, a strong fascia investing all the * In the following description, the palm of the hand is supposed to be turned forwards, so that the radius and thumb are upon the outer side of the fore-arm, and the ulna and little finger upon its inner side. 172 LONDON DISSECTOR, OR muscles. This fascia is continued from the intermus- cular ligaments which pass doAvn to the condyles of the os humeri. It is attached to the condyles, and adheres firmly to the olecranon of the ulna. On the posterior part, it receives a great addition of fibres from the tendon of the triceps extensor; and on the fore-part of the arm, it appears to be a continuation of the aponeurosis which is sent off from the biceps flexor cubiti. Above the fascia, Ave meet Avith several cutaneous veins and nerves. The dissection of the fascia of the fore-arm is simi- lar to that of the fascia of the leg. It is found firmly attached to the fibres of the muscles, so that the ex- posed surface appears ragged. Between the muscles it sends doAvn Ligaments called Intermuscular, which connect the muscles, and give origin to many of their fibres. General Observations.—In dissecting the fore-arm, you will not expect to find each muscle separate from the contiguous ones, as far as its very origin from the bones. The partitions of fascia unite them most firmly to a considerable distance from their commencement; and these connections should not be disturbed, since they are as justly to be regarded in the light of origins of the muscles, as the attachments Avhich the fibres have to the bone. The muscles are divided into two masses; of which one lies over the radius and back of the fore-arm, and contains the supinators and exten- sors: the other, situated over the ulna, and inner side of the fore-arm, consists of the pronators and flexors. Although some muscles in each of these masses arise quite separately, others are joined into a common ten- dinous and fleshy origin, in the manner just described. First then, clean all the muscles as they lie; and after observing them in their relative position, reflect each muscle, beginning with the superficial ones, and read its description at the same time. GUIDE TO ANATOMY. 17:3 The student may perhaps remember the muscles more readily, by arranging them in classes of three each; thus: For the motion of the wrist, three flexors, the ulnaris, radialis, and medius, commonly called palmaris lon- gus. Three extensors, ulnaris, radialis longior, and brevior. Three pronators, the teres, quadratus, and the mass of flexor muscles. Three supinators, the supinator longus, brevis, and biceps cubiti. There are three extensors of the fingers, extensor communis digitorum, extensor primi digiti, extensor minimi digiti. Three extensors of the thumb, extensor primus, secundus, and tertius. Three flexors of the fingers and thumb, flexor digitorum sublimis, flexor digitorum pro- fundus, flexor pollicis longus. MUSCLES SITUATED ON THE FORE PART OF THE CUBIT, AND ARISING FROM THE INNER CON- DYLE OF THE OS HUMERI. These are eight in number, and may be divided into tAvo classes: the superficial, and the deep-seated. First, the superficial. All the muscles passing from the inner condyle may be said to arise by one common tendinous head; but they will be here described as arising distinct from the condyle. It must, however, be recollected, that their origins are intimately connected by inter- muscular ligaments, and that they cannot be separated without dividing some of their fibres. 1. The Pronator Radii Teres—Arises, tendi- nous and fleshy, from the anterior surface of the inner condyle of the os humeri, and from the coronoid pro- cess of the ulna, and the fascia of the fore arm. The fibres pass outwards, run by the side of the tubercle of the radius, and pass over the outer edge of that bone, to be 15* 174 LONDON DISSECTOR, OR Inserted, tendinous and fleshy, into a rough surface on the back part of the radius about its middle. Its tendon, to arrive at its place of insertion, passes under the belly of the supinator longus, and, when that muscle is removed, will be found inserted into the radius immediately below the supinator brevis. Use: To roll the radius, together with the hand, inwards. 2. The Flexor Carpi Radialis—Arises, from the loAver and fore part of the internal condyle of the os humeri; fleshy from the fascia and intermuscular ligaments, and from the upper end of the ulna. It forms a thick belly, wrhich runs down the fore arm, and terminates in a flat tendon. This tendon passes under the annular ligament* of the Avrist, runs through a groove in the os trapezium, and is Inserted into the fore part of the base of the meta- carpal bone sustaining the fore finger. Its insertion cannot be seen till the palm of the hand is dissected, Avhere it will be found concealed by the muscles of the ball of the thumb. Use: To bend the hand, and to assist in its prona- tion. 3. The Palmaris Longus—Arises, by a slender tendon, from the fore part of the inner condyle of the os humeri; and fleshy, from the intermuscular liga- ments; it forms a short fleshy belly, Avhich soon sends off a long slender tendon. This tendon descends along the fore arm, and is * The annular ligament of the wrist consists of two parts. 1. The ligamentum carpi transversale externum passes from the styloid process of the ulna and os pisiforme, transversely, oyer the back of the wrist, and spreads out broad, to be affixed to the styloid process of the radius. Under it pass the tendons of the extensor muscles. 2. The ligamentum carpi transversale internum is a strong ligament, which passes across the fore part of the wrist. It arises from the os pisiforme and os unciforme on the inner edge of the wrist, and is attached to the os scaphoides and os trapezium on the outer edge. Under it pass the tendons of the flexor muscles. GUIDE TO ANATOM*. 175 Inserted, near the root of the thumb, into the annular ligament of the wrist, and into a te.idinous mem- brane that covers the palm of the hand, named Fascia, or Aponeurosis Palmaris. It arises betwixt the flexor carpi radialis and flexor ulnaris. Its tendon descends betAveen these two muscles, and above the fibres of the flexor digitorum sublimis. This muscle is sometimes wanting. Use: To bend the hand, and to stretch the palmar aponeurosis. 4. The Flexor Carpi Ulnaris—Arises, from the inferior part of the internal condyle of the os humeri; tendinous and fleshy, from the inner side of the olec- ranon, and by a tendinous expansion from the posterior ridge* of the ulna, to nearly the loAver end of the bone; and from the intermuscular ligaments and fascia of the fore-arm. The fibres pass obliquely forwards into a tendon which runs over the fore-part of the ulna, and is Inserted into the os pisiforme, and sometimes sends its fibres over a small ligament which goes to the base of the metacarpal bone of the little finger. The tendon is bound doAvn by a thin aponeurotic slip, which passes from the inner part of the annular ligament of the wrist. Use: To bend the hand. 5. The Flexor Sublimis Perforatus—Arises, tendinous and fleshy; from the under part of the inter- nal condyle of the os humeri; tendinous, from the loAver part of the coronoid process of the ulna; fleshy, from the tubercle of the radius, from the middle of the fore part of that bone, and from the middle third of its outer edge. These origins form a strong fleshy mass, Avhich sends off four tendons. The tendons are connected by cellular membrane, and pass together * The ridge which leads to the styloid process. 176 LONDON DISSECTOR, OR under the annular ligament of the wrist; after which they separate, become thinner and flatter, pass along the metacarpal bone and first phalanx of each of the fingers, and are Inserted into the anterior and upper part of the second phalanx, each tendon being, near the extrem- ity of the first phalanx, divided for the passage of a tendon of the flexor profundus. To expose the origin of this muscle, the bellies of the pronator teres, flexor carpi radialis, and palmaris longus, must be detached from the condyle. Its tendons will be seen in the dissection of the palm of the hand. Use: To bend the second joint or phalanx of the fingers. . By removing the belly of the flexor sublimis, Ave expose the deep seated muscles. 6. The Flexor Profundus Perforans—Arises, fleshy, from the smooth concavity on the inside of the ulna, betAveen the coronoid process and the olecranon; from the smooth flat surface of the ulna, betAvixt its posterior and internal angles; from the under part of the coronoid process; from the fore part of the ulna below that process, and from the inner half of the in- terosseous ligament. - This muscle forms a thick mass, Avhich descends along the fore part of the ulna, ad- hering to that bone as low as one-third of its length from its inferior extremity, and terminates in sending off four tendons. These tendons are flat, pass together under the annular ligament of the wrist, run through the slits in the tendons of the flexor sublimis, and are Inserted into the fore and upper part of the third or last phalanx of all the fingers. Use: To bend the last joint of the fingers. 7. Flexor Longus Pollicis Manus—Arises, from the upper and fore part of the radius, immedi- ately below its tubercle, fleshy, from the outer edge GUIDE TO ANATOMY. 177 and anterior surface of that bone as low as tAvo inches above its inferior extremity, and from the outer part of the interosseous ligament. It has also generally a tendinous origin from the internal condyle of the os humeri. The tendon of the muscle passes under the annular ligament of the Avrist, and is Inserted into the last bone of the thumb. Use: To bend the last joint of the thumb. On separating the lower part of the two last de- scribed muscles,'we expose a small square muscle, passing transversely just above the wrist, and lying close to the bones. 8. The Pronator Quadratus—Arises, broad, tendinous, and fleshy, from the inner edge of the ulna, extending from the lower extremity of the bone two inches up its edge. The fibres run transversely, adhere to the interosseous ligament, and are Inserted into the loAver and anterior part of the radius. Use: To turn the radius, together with the hand, inwards. MUSCLES SITUATED ON THE OUTER AND BACK PART OF THE FORE-ARM, AND ARISING FROM THE OUTER CONDYLE OF THE OS HUMERI. These muscles are eleven in number, and may be divided into tAvo classes: the superficial, and the deep seated. THE SUPERFICIAL. The muscles which arise from the outer condyle are much more distinct in their origins than those from the inner. Several of them arise a considerable Avay up the os humeri; but there is here also a common tendinous origin, from Avhich the extensor carpi radia- lis brevior, extensor digitorum communis, and exten- 178 LONDON DISSECTOR, OR sor carpi radialis, proceed; so that these muscles are intimately connected. 1. Supinator Radii Longus—Arises, tendinous and fleshy, from the external ridge of the os humeri, nearly as far up as the middle of the bone, and ceases to adhere about two inches above the condyle. It forms a thick fleshy belly, which passes over the side of the elbow-joint, becomes smaller, and terminates above the middle of the fore-arm in a flat tendon. The tendon becomes gradually rounder, and is Inserted into the lower end of the radius on its outer side. This muscle is situated immediately under the integuments along the outer edge of the arm and fore- arm; and its insertion is crossed by the extensors of the thumb. Use: To roll the radius outwards, and turn the palm of the hand upwards; also to bend the fore-arm on the humerus. 2. The Extensor Carpi Radialis Longior— Arises, tendinous and fleshy, from the external ridge of the os humeri, beginning immediately below the origin of the supinator longus, and continuing to arise as far as the upper part of the outer condyle. It forms a thick short belly, which passes over the side of the elboAv-joint, and terminates above the middle of the radius in a flat tendon. This tendon runs along the radius, and, becoming rounder, passes through a groove in the back part of the inferior extremity of that bone, to be Inserted into the posterior and upper part of the metacarpal bone of the fore-finger. Use: To extend the Avrist, and move the hand backAvards, and to assist in bending the fore arm. 3. The Extensor Carpi Radialis Brevior— Arises, tendinous, from the under and back part of the external condyle of the os humeri, and from the guide to anatomy. 179 external lateral ligament of the elbow-joint. Its thick belly runs along the outside of the radius, and termi- nates in a tendon, which passes through the same groove in the radius as the extensor radialis longior, and under the annular ligament. Inserted, by a round tendon, into the upper and back part of the metacarpal bone that supports the middle finger. Use: To extend the hand. 4. The Extensor Digitorum Communis -Arises, tendinous, from the under part of the external con- dyle of the os humeri; fleshy, from the n'.ermuscular ligaments Avhich connect it to the extensor carpi radialis brevior before, and the extensor carpi ulnaris behind, and from the inner surface of the fascia. It descends along the back p?rt of the fore-arm, and adheres to the ulna where it passes over it. The fleshy belly terminates in four flat tendons, which pass under the annular ligament in a depression on the back part of the radius, and are Inserted into the posterior part of all the bones of the fingers by a tendinous expansion. The tendons are connected on the back of the metacarpal bone by cross slips. The inner part of this muscle is sometimes described as a separate muscle, and is called Extensor Proprius Minimi Digiti, vel Auricularis. It passes through a separate depres- sion of the radius, and a particular ring of the annu- lar ligament. Use: To extend all the joints of the fingers. The posterior surface of each finger is covered with a tendinous expansion Avhich is formed by the tendons of the common extensor, of the lumbricales, and interossei. This tendinous expansion terminates in the third or extreme phalanx. 5. The Extensor Carpi Ulnaris—Arises, tendi- nous, from the under part of the external condyle; 180 LONDON DISSECTOR, OR fleshy, from the intermuscular ligaments and inside of the fascia. It crosses tOAvards the ulna, and arises, fleshy, from the back part of that bone. It termi- nates in a strong tendon, which passes through a groove in the back part of the loAver end of the ulna, under the annular ligament, and is Inserted into the posterior and upper part of the metacarpal bone of the little finger. This muscle is entirely superficial, and serves to extend the wrist, and bring the hand backwards; but chiefly to bend the hand laterally towards the ulna. The next muscletAvould be the anconeus, but that has been already described. By removing the superficial muscles, Ave expose THE DEEP SEATED. 6. The Supinator Radii Brevis—Arises, tendi- nous, from the lower part of the external condyle of the os humeri; from the outer surface of the ulna; and from the interosseous ligament: it passes outwards round the upper part of the radius, and is Inserted into the upper and outer edge of the tuber- cle of the radius, and into an oblique ridge extending from the tubercle downwards and outwards to the insertion of the pronator teres. This muscle nearly surrounds the upper and outer part of the radius. Use: To roll the radius outwards, and bring the hand supine. On the back part of the fore arm we meet with three muscles going to the thumb, and one to the fore finger. 7. The Extensor Ossis Metacarpi Pollicis__ Arises, fleshy, from the middle and posterior part of the ulna, immediately below the termination of the anconeus, from the interosseous ligament, and from GUIDE TO ANATOMY. 181 the posterior surface of the radius beloAV the insertion of the supinator radii brevis. The fleshy fibres ter- minate in a tendon which passes through a groove in the outer edge of the lower extremity of the radius: Inserted, generally by two tendons, into the os tra- pezium, and into the upper and back part of the meta- carpal bone of the thumb. Use: To extend the metacarpal bone of the thumb outwardly. 8. The Extensor Primi Internodii Pollicis Manus—Arises, fleshy, from the back part of the ulna beloAV its middle, from the interosseous ligament and radius. It runs along the loAver edge of the ex- tensor ossis metacarpi, and forms a tendon, which passes through the same groove as the tendon of that muscle, and is Inserted into the posterior part of the first bone of the thumb. Part of the tendon is also continued into the base of the second or extreme phalanx. Use: To extend the first phalanx of the thumb obliquely outwards. It is called also Extensor secundi internodii. 9. The Extensor Secundi Internodii Polli- cis Manus—Arises, tendinous and fleshy, from the posterior surface of the ulna above its middle, and from the interosseous ligament. Its belly partly covers the origins of the two other extensors of the thumb, and terminates in a tendon, which runs through a distinct groove in the back part of the radius, and is Inserted into the posterior and' upper part of the second or extreme phalanx of the thumb. Use: To extend the last joint of the thumb obliquely backAvards. It is called also Extensor tertii internodii. 10. The Indicator, or Extensor Primi Digiti— Arises, by an acute fleshy beginning, from the middle 16 182 LONDON DISSECTOR, OR of the back part of the ulna, and from the interosseous ligament. Its tendon passes through the same sheath of the annular ligament with the extensor digitorum communis, and is Inserted into the posterior part of the fore finger with the tendon of the common extensor. Use: To assist in extending the fore finger. SECTIO N III . DISSECTION OF THE PALM OF THE HAND. The tendons which pass over the bones of the car- pus into the palm of the hand are firmly bound down by the annular ligament of the wrist. They are in- vested and connected by cellular membrane, which forms sheaths, and secretes synovia to facilitate their motions. In the sole of the foot Ave saw a strong fascia sup- porting and covering the muscles, and passing from the heel to the toes. On removing the integuments from the palm of the hand, Ave meet with a similar fascia. It arises from the tendon of the palmaris longus, and from the annular ligament of the wrist, expands over all the palm of the hand, and is fixed to the roots of the fingers, splitting, to transmit their tendons. This is the Fascia or Aponeurosis Palmaris. It is triangular. Where it arises from the Avrist, it is narrow, and does not cover the bases of the metacarpal bones of the little and fore-finger. As it runs over the hand, it becomes broader, and is fixed by a bifurcated extremity in the lower end of each of the metacarpal bones of the four fingers. The palmar fascia is strong and thick, con- GUIDE TO ANATOMY. 183 ceals and supports the muscles of the hand, and may be distinguished into four portions, which are con- nected by transverse fibres, Avhile other fibres pass from them downwards, adhere strongly to the edges of the metacarpal bones, and separate the tendons of each finger. There is a small thin cutaneous muscle situated between the Avrist and the little finger. The Palmaris Brevis—Arises from the annular ligament of the wrist, and from the inner edge of the fascia palmaris. Inserted, by small scattered fibres, into the skin and fat which covers the short muscles of the little finger and inner edge of the hand. Use: To assist in contracting the palm of the hand. The fascia palmaris may noAv be removed. Under it will be seen the four tendons of the flexor sublimis perforatus. They are seen coming from beneath the annular ligament of the wrist, and diverging as they pass towards their respective fingers. Each tendon splits at the extremity of the first phalanx, for the passage of the tendon of the flexor profundus perfo- ratus, and is inserted into the base of the second phalanx. Under the flexor sublimis are the four tendons of the flexor profundus perforans,Avhich pass through the slits in the tendons of the former, and are inserted into the bases of the (third phalanges of the fingers. The Lumbricales are four small muscles, which arise, from the outer side of the tendons of the flexor profundus perforans. The tendon of each muscle runs along the outer edge of the finger, and is Inserted into the tendinous expansion which covers the back part of the phalanges of the fingers, about the middle of the first joint. Use: To bend the first phalanges of the fingers, the 184 LONDON DISSECTOR, OR flexor profundus being previously in action, to afford them a fixed point. The short muscles of the thumb and fore-finger are five in number. 1. The Abductor Pollicis Manus—Arises, from the anterior surface of the annular ligament of the wrist, and the os naviculare and os trapezium. Inserted, into the root of the second bone of the thumb, and the tendinous membrane covering the back part of all the phalanges. This muscle is situated immediately under the integuments, and is the outermost portion of the mus- cular mass forming the ball of the thumb. Use: To draw the thumb from the fingers. 2. The Flexor Ossis Metacarpi Pollicis, or Opponens Pollicis—Arises, under the last, from the annular ligament of the Avrist, and the os naviculare and os trapezium. Inserted, into the anterior and lower part of the metacarpal bone of the thumb. Use: To bring the first bone of the thumb inwards. 3. The Flexor Brevis Pollicis Manus arises by two distinct heads, (formed by the tendon of the long flexor,) from the inside of the annular ligament; from the anterior surface of the os trapezium and os trape- zoides; from the root of the metacarpal bone of the fore finger; and from the upper part of the os magnum and os unciforme. Inserted into the sesamoid bones, and the first pha- lanx of the thumb. This muscle is in great part concealed by the abductor pollicis. Use: To bend the first joint of the thumb. 4. The Adductor Pollicis Manus—Arises, fleshy, from almost the whole length of the metacar- pal bone of the middle finger. guide to anatomy. 185 Inserted, into the first phalanx of the thumb, at its carpal extremity. Use: To pull the thumb towards the fingers. 5. The Abductor Indicis Manus—Arises, from the os trapezium, and the metacarpal bone of the thumb, and is Inserted, into the first phalanx of the fore finger. This muscle is seen most distinctly on the back of the hand. It is there superficial, and is crossed by the tendon of the extensor secundi internodii pollicis. In the palm of the hand it is concealed by the muscles of the ball of the thumb. Use: To move the fore finger towards the thumb, or the thumb towards the fore finger. The insertion of the flexor carpi radialis is exposed by removing the muscles of the thumb. The short muscles of the little finger are three in number. 1. The Abductor Minimi Digiti Manus— Arises, from the os pisiforme, and adjacent part of the annular ligament of the wrist. Inserted, into the side of the first phalanx, and the tendinous expansion which covers the back part of the little finger. Use: To draw the little finger from the rest. 2. The Flexor Farvus Minimi Digiti—Arises, fleshy, from the outer side of the os unciforme, and from the annular ligament of the wrist, Avhere it is affixed to that bone. Inserted, by a roundish tendon, into the base of the first phalanx of the little finger. Use: To bend the little finger, and bring it tOAvards the other fingers. 3. Adductor Metacarpi Minimi Digiti Manus, Arises, from the os unciforme, and adjacent part of the annular ligament of the Avrist. 16* 186 LONDON DISSECTOR, OR Inserted, into the fore part of the metacarpal bone of the little finger, nearly its whole length. It is concealed by the bellies of the abductor and flexor brevis minimi digiti. ' Use: To bend and bring the metacarpal bone of the little finger towards the rest. The Interossei are small muscles situated between the metacarpal bones, and extending from the bones of the carpus to the fingers. They are exposed by removing the other muscles of the thumb and fingers. The Interossei Interni are seen in the palm of the hand, and are four in number. They arise, tendi- nous and fleshy, from the base and sides of the meta- carpal bones, and are inserted into the side of the first phalanx of the fingers, and into the tendinous expansion which covers the posterior surface of all the phalanges. 1. The First, named Prior Indicis, arises from the outer part of the metacarpal bone of the fore-finger; and is inserted into the outer side of the first phalanx of that finger. Use: To draAV the fore-finger towards the thumb. 2. The Second, named Posterior Indicis, arises from the root and inner side of the metacarpal bone of the fore-finger; and is inserted into the inner side of the first phalanx of the fore-finger. Use: To draAV that finger outwards. 3. The Third, named Prior Annularis, arises from the root and outer side of the metacarpal bone of the ring-finger; and is inserted into the outer side of the first phalanx of the same finger. Use: To pull the ring-finger towards the thumb. 4. The Fourth, named Interosseus Auricularis, arises from the root and outer side of the metacarpal bone of the little finger; and is inserted into the outer side of the first phalanx of the little finger. Use: To draAV the little finger outwards. GUIDE TO ANATOMY. 187 The internal interossei also assist in extending the fingers obliquely. The Interossei Externi, seu Bicipites, are three in number. They are larger than the internal, and are situated betAveen the metacarpal bones on the back of the hand. Each of these muscles arises by a double head, from tAvo metacarpal bones, and is inserted into the side of one of the fingers, and into the tendi- nous expansion which covers the posterior part of the phalanges. 1. The First, named Prior Medii, arises from the roots of the metacarpal bones of the fore and middle fingers; and is inserted into the outer side of the mid- dle finger. Use: To draAV the middle finger towards the thumb. 2. The Second, named Posterior Medii, arises from the roots of the metacarpal bones of the middle and ring fingers; and is inserted into the inner side of the middle finger. Use: To draAV the middle finger tOAvards the ring- fyiger. 3. The Third, named Posterior Annularis, arises from the roots of the metacarpal bones of the ring and little fingers; and is inserted into the inner side of the ring-finger. Use: To draw the ring-finger imvards. The ex- ternal interossei also extend the fingers. PART II. DISSECTION OF THE VASCULAR AND NERVOUS SYSTEMS. We will suppose that the subject has been injected; and that the student proceeds to the examination of the lower extremity. He may proceed according to the rules laid down for the dissection of the abdominal muscles, and having carefully raised the external ob- lique he will meet in the region of the abdominal ring the epigastric artery, and the circumflexa ilii, branches of the external iliac artery. The Epigastric Artery comes off from the inside of the external iliac, crosses the external iliac vein, passes obliquely upAvards and inwards, under Pou- part's ligament, to Avhich it is but loosely connected, and runs behind the upper extremity of the abdomi- nal ring and spermatic chord, to reach the rectus ab- dominis. At first it is situated between the posterior surface of that muscle and the peritoneum, but higher up between the muscular fibres and the sheath. It terminates in ramifications, which supply the rectus, and Avhich inosculate Avith those of the mammaria interna, sent down from the thorax on each side of the sternum. The circumflexa Ilii is sent off from the outside of the external iliac, passes upAvards and outAvards, runs along the inside of Poupart's ligament, till it arrives at the anterior superior spinous process of the os ilium; thence it is continued along the inside of the 190 LONDON DISSECTOR, OR spine of the ilium, lying close upon the bone betAveen the transversalis abdominis and the upper edge of the iliacus internus, to both of which it gives twigs, and ends in inosculating Avith the ileo-lumbar artery. The muscles of the abdomen may now be removed; and having cut through the peritoneum, the student will meet with the abdominal aorta and its various branches. OF THE VESSELS AND NERVES SITUATED BEHIND THE PERITONEUM. 1. THE ARTERIES, viz: THE AORTA ABDOMINALIS, AND ITS BRANCHES. The Aorta passes from the thorax into the abdo- men, between the crura of the diaphragm, close upon the spine. It then descends on the fore part of the vertebrae, lying not exactly in the middle, but rather- inclined to the left side. On the fourth lumbar ver- tebra, it bifurcates into the tAvo primitive or common iliac arteries. BRANCHES OF THE ABDOMINAL AORTA. 1. The two Phrenic Arteries arise from the Aorta, before it has fairly entered into the abdomen, and ramify over the diaphragm;—sometimes they come off in one trunk, Avhich bifurcates; sometimes one of them arises from the cosliac. 2. The Cobliac Artery comes off at the point where the aorta has fairly extricated itself from the dia- phragm; it is a single, large, but short trunk, situated between the inferior surface of the liver, and the small curvature of the stomach, and surrounded by the meshes of the semilunar ganglion. It divides at once guide to anatomy. 191 into three branches; and as they depart in different directions from one point, as from a centre, the trunk is called the Axis Arterle Cceliacje. (1.) A. Coronaria Ventriculi, the middle branch, is the smallest of the three; it passes from the axis towards the left side, and arriving at the cardiac orifice of the stomach, where it attaches itself to that organ, sends a branch round the cardia, named Ramus Coronarkv, Dexter. The trunk itself is then continued along the lesser curvature from left to right, to inos- culate with the pylorica or coronaria dextra: it sends off branches to the little epiploon, &c. It sometimes terminates in the liver, entering at the portae, and then it is the largest of the branches of the coeliac. In this case, the trunk, after ascending towards the left to reach the cardia, is reflected to the right, in its way to the liver; and, at the point of reflection, gives off the coron. ventric. (2.) Arteria Splenica, leaving the trunk of the coeliac, goes directly to the side, passes under the stomach, and along the upper border of the pancreas, running in a tortuous and serpentine course: it enters the left concave surface of the spleen in several branches, but before doing so, it gives off the follow- ing branches: a, Pancreatice Parv^e to the pancreas, where it runs along the border of that viscus. b, Vasa Brevia to the bulging extremity of the stomach. c, A. Gastro-epiploica Sinistra, which runs along the greater curvature of the stomach, inosculat- ing with the gastro-epiploica dextra. (3.) Arteria Hepatica runs in a direction oppo- site to the splenic, towards the right side; but not more than half of its blood goes to the liver: It sends off the following branches: a, Pylorica, or Coronaria Dextra, sometimes 192 LONDON DISSECTOR, OR comes off from the trunk of the hepatic, sometimes from one of its branches:—reaching the pyloric end of the stomach, it sends its ramifications along the lesser curvature, to inosculate with the proper coro- nary artery. b, Gastro-epiploica Dextra, or Gastro-duo- denalis, passes under the pylorus, to reach the great curvature of the stomach, along Avhich it runs, inoscu- lating with the gastro-epiploica sinistra, and sending branches upAvards to the stomach, and doAvnwards to the omentum; it also supplies the upper part of the duodenum, and sends off' a considerable branch to the right extremity of the pancreas. The hepatic artery then divides into the right and left hepatic. The Right is distributed to the right lobe of the liver, and to the gall-bladder. The Left supplies the Avhole of the left lobe, the lobulus Spigelii, and part of the right lobe of the liver. 3. The Superior Mesenteric Artery is a single trunk; it leaves the aorta about half an inch loAver than the coeliac artery, it comes out from under the mesoco- lon, and stretches over the duodenum: it enters the fold of peritoneum forming the mesentery, and runs doAvn in this, gradually incurvating from the left to the right side. From the right side or concavity of this arch, three branches are given to the colon. (1.) A. Ileo-Colica runs doAvn to the caput coli and last turns of the ileon; its branches upon the small intestines inosculate with those branches of the superior mesenteric distributed to the small intestines in general; and on the great intestine, it inosculates with the next branch. (2.) A. Colica Dextra.—This artery runs from the root of the superior mesenteric artery, across towards the right side of the colon, where that intes- tine begins to rise over the kidney. guide to anatomy. 193 (3.) A. Colica Media.—This branch goes directly upwards from the trunk of the superior mesenteric as it comes out from under the mesocolon. After- running a little way upon the mesocolon, it divides; and the division going tOAvards the right side, makes a large inosculation with the colica dextra, Avhile the left branch makes an opposite sweep, and joins the colica sinistra, which is a branch of the inferior mesenteric. Often there are only two branches instead of these three; viz. ileo-colica, and colica dextra; then the c. media is a branch of the latter. Frequently too, there is only one branch, called colica dextra, and dividing after its origin, into the three above named. The left side or convexity of the arch of the supe- rior mesenteric sends off from sixteen to twenty branches, which, after forming frequent anastomoses and arches, proceed to the small intestines. 4. The Renal or Emulgent Arteries are two in number. Each artery arising, below the superior mesenteric, from the side of the aorta, passes to the kidney, and after having given twigs to the renal cap- sule, and adipose membrane, enters the smaller arch of the kidney. The right artery is longer than the left, and passes behind the vena cava ascendens. 5. The Spermatic Arteries are also tAvo; they come off about an inch below the emulgent from the fore part of the aorta. Each artery descends behind the peritoneum, giving tAvigs to the parts in its course, and accompanied by the spermatic vein and nerves. It then passes through the abdominal ring, and enters the upper part of the testicle in five or six branches. In the female it supplies the ovaria and fundus uteri. 6. The Inferior Mesenteric is a single trunk, which comes off rather from the left side of the aorta, beloAV the spermatic arteries; it passes in the mesentery 17 194 LONDON DISSECTOR, OR to the left side of the abdomen, where it divides as follows: (1.) The Colica Sinistra, an artery which ascends along the left side of the colon, to inosculate with the A. Colica Media. (2.) Branches which pass to the sigmoid flexure. (3.) The great trunk of the artery runs down behind the rectum, on which it ramifies largely, and is termed Art. Hemorrhoidalis Interna. 7. The Lumbar Arteries are five or six small arteries on each side, which arise from the back part of the aorta, and are distributed to the spinal canal, peritoneum, muscles of the spine, and of the sides of the abdomen and pelvis. They inosculate with the A. Epigastrica, Circumflexa ilii &c. 8. A. Sacra Media is a single artery, arises from the back part of the aorta at its bifurcation, and descends along the anterior surface of the sacrum, giving twigs to all the neighboring parts. At the fourth lumbar vertebra, the aorta bifurcates into the tAvo primitive or common iliacs. The Iliaca Communis runs along the edge of the psoas muscle, and at an inch or two from its origin divides into, (1.) The Internal Iliac, which passes down into the pelvis. (2.) The External Iliac, Avhich, following the direc- tion of the psoas muscle, passes under Poupart's liga- ment, and becomes the inguinal artery. 2. veins. The Vena Cava Abdominalis, vel Inferior, is formed by the junction of the tAvo common iliac veins; it passes up through the abdomen on the lumbar ver- tebrae, and on the right side of the aorta. GUIDE TO ANATOMY. 195 In this course it receives the following veins, which resemble their corresponding arteries. 1. The Lumbar Veins. 2. The Emulgent or Renal Veins;—the left is the longer, as it crosses over the fore part of the aorta, 3. The Right Spermatic Vein;—the left enters the left renal vein. The vena cava then passes through the fissure of the liver, being nearly surrounded by that viscus, and receiving three branches from it, called the Venje Hepatic^e. It then perforates the diaphragm, and enters the thorax. The common iliac vein of each side is formed by the union of two branches, the External and Internal Iliac Veins, which accompany the arteries of the same name:—The common iliac vein of each side lies on the inside of its artery; hence both veins cross be- hind the right iliac artery, to unite and form the vena cava, on the fore part of the lumbar vertebras.* do not join the cava, but The Superior Mes- enteric Vein, the In- ferior Mesenteric • Vein, and the Splenic Vein, are united behind the pancreas, to form the Vena Portae. This vein ramifies anew through the liver, and its blood is returned into the vena cava by the venae cava: hepaticae. Although Ihe trunks just enumerated are the chief veins that contribute to form the vena portae, yet the returning veins of all the viscera enclosed in the peri- toneum, except the liver, are included in the same system, and join one or other of the large trunks. This is the case with the stomach, pancreas, gall-bladder, * It may be here proper to observe, that generally a great vein acconi panies every great artery; but when the ramifications become small each artery is attended by two veins. 196 LONDON DISSECTOR, OR and omentum. The blood Avhich goes to the spleen, large and small intestines, is all returned by the three great trunks. 3. NERVES. 1. The eighth pair, or Par Vagtim, descending on each side of the oesophagus through the diaphragm, forms the tAvo Stomachic Plexuses on the anterior and posterior surfaces of the stomach. These plexuses send some branches to the coeliac, to the hepatic, and to the splenic plexus. 2. The Splanchnic Nerve, or Anterior Intercos- tal, a branch sent off by the intercostal nerve in the thorax, enters the abdomen betwixt the crura of the diaphragm; here each nerve forms a Semilunar Ganglion by the side of the coeliac artery. From this ganglion, on each side, branches are sent across, which communicate intimately together, and form round the root of the coeliac artery, a very inti- mate plexus, containing several ganglia of various sizes, formerly called the Solar, but now more cor- rectly the Coeliac Plexus. Nerves pass from this plexus, Avith the branches of the aorta, to the various viscera of the abdomen: in a common dissection these nerves cannot be clearly demonstrated, as they lie very close on the respective arteries, and are surrounded by much condensed cellular substance;,they form the hepatic, splenic, superior, and inferior mesenteric, renal, and spermatic plexuses. 3. The trunk of the intercostal nerve, the posterior intercostal, perforates the small muscle of the dia- phragm close to the spine, runs down on the sides of the lumbar vertebrae, and along the upper edge of the psoas magnus. It terminates on the extremity of the os coccygis, by union Avith the nerve of the opposite side, in a ganglion named Ganglion Impar. In this guide to anatomy. 197 course, it communicates Avith the lumbar nerves, and the various abdominal plexuses. The Thoracic Duct may be seen passing from the abdomen into the thorax, between the aorta and the right crus of the diaphragm. It is larger here than in its subsequent course, and the dilated portion is called receptaculum chyli, as the lacteals pour in the chyle in this situation. OF THE VESSELS AND NERVES CONTAINED WITHIN THE PELVIS. 1. ARTERIES. The A. Iliaca Interna, having left the trunk of the iliaca communis, passes immediately into the pel- vis, where it gives off several large arteries. 1. A. Ileo-Lumbalis supplies the psoas and iliacus internus muscles. 2. A. Sacra: Laterales, two or three small ves- sels Avhich supply the sacrum, cauda equina, and neighboring parts. 3. A. Glutea (or iliaca posterior,) a very large branch, passes out of the pelvis through the upper part of the sciatic notch to supply the haunch, but, in its passage, it gives some branches to the os sacrum, os coccygis, the rectum, and the muscles situated within the pelvis. 4. A. Sciatica passes out of the pelvis by the sciatic notch, and beloAV the pyriformis muscle to supply the hip: in its passage it gives branches to the neighboring parts. m 5. A. Pudica (pudenda communis or interna) is the branch of the internal iliac, which is more immediately destined to supply the parts of generation, perineum, and loAver part of the rectum: it goes out of the pelvis 17* 198 LONDON DISSECTOR, OR above the superior sacro-sciatic ligament, tAvists round it, and re-enters the pelvis above and before the infe- rior sacro-sciatic ligament; it then descends on the inside of the tuber ischii, ascends on the inner surface of the rami of the ischium and pubis, and, reaching the root of the penis, divides into two branches. (1.) A. Perinei, a branch which, after giving twigs to the bulb of the urethra and neighboring muscles, enters the crus of the penis, and subdivides into branches Avhich pass to both extremities of the crus. (2.) A. Dorsalis Penis, passes under the arch of the pubis, runs along the dorsum penis, and is distri- buted to the integuments. In its course the pudic artery gives off many branches. (1.) While in the pelvis, it gives tAvigs to the blad- der, prostate gland, and rectum. (2.) A. HiEMORRHoiDALEs ExTERNiE come from the pudic while passing by the anus. (3.) A. Transversa Perinei, following the course of the transversus perinei muscle. (6.) A. Obturatrix descends on the inside of the psoas muscle, passes through the foramen in the ob- turator ligament to the muscles on the inside of the thigh. (7.) A. Hypogastrica, which in the foetus sends off the umbilical artery, is in the adult continued only to the side of the bladder, to which it gives branches; in the female, it enters the neck of the uterus, and gives branches to the vagina. You must not expect to meet with uniformity in the distribution of these vessels in all subjects: sometimes the gluteal and pudic arteries come off by one trunk, sometimes the pudic and sciatic, &c. &c. GUIDE TO ANATOMY. 199 2. VEINS. The veins attend the arteries and their ramifications; they unite to form the internal iliac vein, except the veins from the rectum, named Hmmorrhoidales, Avhich ascend along its back part to join the inferior mesen- teric vein. 3. NERVES. The nerves met with in this dissection, consist of numerous twigs sent off from the lumbar and sacral nerves to supply the parts about the pelvis. But, in this dissection, Ave meet Avith three pair of large nerves, which have their course through the pelvis, and pass to the thigh. 1. Course of the Anterior Crural Nerve while in the pelvis. The anterior crural nerve is formed by branches of the first, second, third, and fourth lumbar nerves; at its origin, it lies under the psoas magnus, and, as it descends, passes betAvixt the psoas magnus and iliacus internus, till having passed under Poupart's ligament, it emerges from betwixt those muscles, and appears on the outer side of the inguinal artery. 2. Course of the Obturator Nerve within the pelvis. This nerve is formed by branches of the second, third, and fourth lumbar nerves: it lies under the internal border of the psoas magnus, descends into the pelvis, and goes obliquely doAvmvards, to accompany the obturator artery through the thyroid hole. 3. Course of the Great Sciatic Nerve within the pelvis. This nerve arises by branches from the fourth and fifth lumbar, and first three sacral nerves, which unite together to form the largest nervous trunk in the body. The nerve passes betwixt the pyriformis and gemini, and thus escapes from the 200 LONDON DISSECTOR, OR back part of the pelvis by the sciatic notch. Some- times one of the branches goes through the pyriformis, and joins the sciatic trunk at the back of the pelvis. ARTERIES, VEINS, AND NERVES ON THE FORE PART AND INSIDE OF THE THIGH. 1. ARTERIES. The Femoral Artery may be said to pass along the inside of the thigh, Avhere it emerges from under Poupart's ligament; it lies cushioned on the fibres of the psoas magnus, is called the Inguinal artery, and is very nearly in the mid space betAveen the angle of the pubis, and the anterior superior spine of the ilium, nearer, however, by a finger's breadth to the former; having left the groin, it assumes the name of Femoral, and, in its course doAvn the thigh, runs over the fol- lowing muscles:—The pectinalis, part of the adductor brevis, Avhere that muscle projects betwixt the pecti- nalis and adductor longus; the Avhole of the adductor longus, and about an inch of the adductor magnus: It then slips betAvixt the tendon of the adductor magnus and the bone, and, entering the ham, becomes the Popliteal artery. To find the artery in any part of its course from the crural arch to the tendinous opening, turn out the foot, ascertain the place of that vessel at the crural arch, according to the above description, and then draAV a straight line doAvnwards. In this course, it has the belly of the vastus internus situated on its outside; it lies betAveen the origin of that mus- cle, and the tendinous insertion of the muscles over which it crosses; and there is a strong interlacing of the tendinous fibres, forming a deep groove for the artery; it is also invested by a firm sheath, Avhich GUIDE TO ANATOMY. 201 consists of condensed cellular membrane, intermixed Avith some tendinous fibres:—For some inches below Poupart's ligament, this artery is on its fore part only covered by cellular substance, absorbent glands, and the general fascia of the thigh; but, meeting with the inclined line of the sartorius, it is, during the rest of its course, covered by that muscle. It perforates the tendon of the adductor magnus, at the distance of rather more than one-third of the length of the bone from its lower extremity. Observe that in popliteal aneurism the artery may be taken up either at the upper or inner, the loAver or outer, margin of the Sartorius, or immediately behind that muscle: of which situations the first is the best, the second next, and the third by far the least eligible. BRANCHES OF THE FEMORAL ARTERY.* The A. Profunda comes off from the femoral artery at the distance of tAvo, three or four inches from Poupart's ligament; it is nearly as large as the femoral itself, runs down for some little Avay behind it, and terminates in three or four branches, which, perfora- ting the triceps adductor, are named Arteria Per- forantes. These, ramifying in every direction, supply all the great mass of muscles situated on the back part of the thigh, and inosculate largely with the sciatic, gluteal, and obturator arteries. The profunda also sends off tAvo considerable branches, Avhich, en- circling the upper part of the thigh, are named Cir- cumflexa Interna, and Circumflexa Externa. The profunda is the only branch of the femoral artery which is constant in its size and situation; for though, during the Avhole of its course, the femoral gives off branches to the muscles, yet these muscular arteries vary much, sometimes coming off from the *The Epigastrica and Circumflexa ilii are before described as branches of the inguinal artery. 202 LONDON DISSECTOR, OR great artery, sometimes from the profunda, sometimes coming off as a large single trunk which subdivides, while at other times there are three or four distinct arteries. The branches of the femoral artery may be enume- rated as follows:—1. Some twigs to the inguinal glands, and some to the external parts of generation, named Pudicae Externae. 2. Muscularis interna. 3. Muscularis externa. 4. Profunda. The Obturator Artery, arteria obturatrix, which is a branch of the internal iliac artery, passes through the notch at the upper part of the foramen thyroideum, and ramifies on the deep seated muscles at the upper and inner part of the thigh. 2. VEINS. The Femoral Vein adheres closely to the femoral artery in its passage out of the abdomen, and accom- panies it in its course down the thigh, where it passes under Poupart's ligament; it lies on the inside of the artery, but, as it descends, it turns more and more posteriorly, so that where they perforate the tendon of the adductor magnus, the vein is situated fairly behind the artery. Its branches correspond to those of the femoral ar- tery; but about an inch below Poupart's ligament, it receives the vena saphena major, to which there is no corresponding artery. The Obturator Vein accompanies the obturator artery, and has the same distribution. 3. NERVES. Nervus Cruralis Anterior, or the Anterior Crural nerve, where it passes from under Poupart's ligament, lies about half an inch on the outside of the GUIDE TO ANATOMY. 203 femoral artery; it immediately divides into a number of branches, which supply the muscles and integuments on the fore part and outside of the thigh. A consider- able branch, however, accompanies the femoral ar- tery, crosses that vessel where it is about to perforate the adductor magnus, runs behind the sartorius, and appears as a cutaneous nerve on the inside of the knee: proceeding downwards on the inside of the leg, it is largely distributed over the tibia, is intricated with the vena saphena major, and terminates on the inner ankle, and upper part of the foot. This branch is named Nervus Saphenus, or Cutaneus Longus. Another branch, which is distributed to the vastus internus, generally runs for some way in company with the femoral vessels. Nervus Obturator, or the obturator nerve, is found accompanying the obturator artery and vein; it has the same distribution, and some branches extend as far as the internal condyle of the thigh bone, and communicate with the nervus saphenus. VESSELS AND NERNES ON THE POS- TERIOR PART OF THE THIGH. ARTERIES. 1. Arteria Glutea, or Iliaca Posterior.— This is the largest branch of the internal iliac artery; it passes out of the pelvis at the upper part of the sciatic notch. On raising the gluteus maximus and medius, this artery is seen coming over the pyriformis, betwixt the superior edge of that muscle and the inte- rior edge of the os ilium (where that bone forms the upper part of the sciatic notch,) and immediately 204 LONDON DISSECTOR, OR behind the posterior fibres of the gluteus minimus. The principal trunk passes under the gluteus medius, and ramifies on the dorsum of the os ilium; other large branches are also continued to the gluteus maximus, and the muscles situated on the back part of the pelvis. 2. Arteria Sciatica, vel Ischiatica, is another large branch of the internal iliac, which comes out from under the pyriformis, between the loAver edge of that muscle and the superior sacro-sciatic ligament; it lies upon the back part of the hip, under the gluteus maximus;—its principal branches descend between the trochanter major and tuberosity of the ischium; it sends other twigs round towards the anus and peri- neum. Both these arteries inosculate with the other branches of the internal and external iliac. The Veins correspond exactly to the arteries. They terminate in the internal iliac vein. NERVES. Nervus Sciaticus, vel Ischiaticus, or the Great Sciatic Nerve, is seen coming out of the pelvis, along with the sciatic artery, beloAV the pyriformis. It descends over the gemini and quadratus femoris in the holloAv betAvixt the great trochanter and the tuberosity of the ischium,—runs down the back part of the thigh, anterior to, i. e. nearer the bone than the hamstring muscles; being situated betAveen the anterior surface of the semimembranosus, and the posterior surface of the triceps adductor longus. After sending off the peroneal nerve, it arrives in the ham, and becomes the Popliteal Nerve. In this course it gives off several branches to the muscles and integuments. It sometimes perforates the belly of the pyriformis by distinct trunks, which aftenvards unite. GUIDE TO ANATOMY. 205 DISSECTION OF THE HAM AND FASCIA ON THE BACK PART OF THE LEG. On removing the integuments from the back part of the knee joint and leg, Ave observe a Fascia, which covers the great vessels and the muscles. It is evi- dently continued from the great fascia of the thigh, is strengthened by adhesions to the condyles of the femur, and the head of the fibula, and is prolonged upon the muscles on the back of the leg. Upon dissecting back that part of the fascia AA'hich covers the ham, the Great Sciatic Nerve appears, lying between the outer and inner hamstring muscles. This nerve, having given off branches about the ham, and to the integuments on the back of the leg, divides at some distance above the condyles of the femur into tAvo large branches. 1. The Greater Nerve continues its course betAvixt the heads of the gastrocnemii muscles. In the ham it is named the Popliteal Nerve, and AAhere it descends in the leg, the Posterior Tibial. 2. The Smaller Nerve, Avhich is the external branch, is named the Peroneal or Fibular Nerve; it passes outAvards and obliquely downwards, runs between the external head of the gastrocnemius, and the tendon of the biceps flexor cruris; and sinks among the muscles Avhich surround the head of the fibula. branches of the peroneal nerve. (1.) Cutaneous branches are sent off from the pero- neal nerve at its uppermost part over the gastrocne- mius to the integuments in the back part of the leg, and outer side of the foot. Branches also are distri- buted about the joint. (2.) A large branch, the Anterior Tibial Nerve, passes under the flesh of the peroneus longus and 18 206 LONDON DISSECTOR, OR extensor longus digitorum, where those muscles arise from the heads of the fibula and tibia; and comes in contact Avith the anterior tibial artery, which it accom- panies doAvn the leg. (3.) Another branch passes into the upper extremity of the peroneus longus, and is continued in the substance of that muscle for some space. It then emerges from beneath it, and continues its course under the muscles on the fore part and outside of the leg; it pierces this fascia, and, becoming cutaneous, is lost on the ankle and upper surface of the foot. BeloAV the great sciatic nerve, there is much cellular membrane and fat, which being removed, the Great Popliteal Vein is exposed. It adheres to the Pop- liteal Artery, which lies under it close upon the bone. Arteria Poplitea is the trunk of the Femoral, which assumes that name, after it has perforated the tendon of the triceps. It lies betAveen the condyles of the femur, close upon the bone, and descends between the heads of the gastrocnemius. It runs over the popliteus, and under the gastrocnemius, that is, in the erect position it is anterior to the gastroc- nemius, and posterior to the popliteus: at the loAver edge of the popliteus, the popliteal artery divides into the Anterior and Posterior Tibial Arte- ries. branches. 1. Two Perforating Arteries come off from the artery immediately after it has entered the ham; they are small, and perforate from the ham to the fore part of the thigh. 2. Articular Arteries are four or five small twigs, ramifying over the knee-joint and neighbouring muscles, inosculating with one another, and Avith the arteries below the knee. guide to anatomy. 207 3. Two branches are sent to the tAvo heads of the gastrocnemii muscles; twigs are also given to the soleus, plantaris, &c. The Popliteal Vein receives branches corres- ponding to those of the artery; it lies behind the artery in the erect posture. About tAvo inches above the condyle, it receives the Vena Saphena Minor, which returns the blood from the outer side of the foot;—the trunk of this vein lies under the fascia. OF THE VESSELS AND NERVES IN THE FORE PART OF THE LEG AND FOOT. 1. ARTERIES. Arteria Tibialis Antica.—The anterior tibial artery passes from the ham betwixt the inferior edge of the popliteus, and the superior fibres of the soleus, and then through a large perforation in the interosse- ous ligament, to reach the fore part of the leg; this perforation is much larger than the size of the artery, and is filled up by the fibres of the musculus tibialis posticus, AArhich may thus be said to arise from the fore part of the tibia. The artery then runs doAvn close upon the middle of the interosseous ligament, betAveen the tibialis anticus and extensor proprius pollicis; beloAV the middle of the leg, it leaves the in- terosseous ligament and passes gradually more for- wards; it crosses under the tendon of the extensor proprius pollicis,* and is then situated betAveen that * It is crossed by that tendon just above the lower head cf the tibia, ivhile under the annular ligament. 208 LONDON DISSECTOR, OR tendon, and the first tendon of the extensor longus digitorum: at the ankle it runs over the fore part of the tibia, being hoav situated more superficially; then over the astragalus and os naviculare, and over the junction of the os cuneiforme internum and medium; crossing under that tendon of the extensor brevis dig- itorum Avhich goes to the great toe. Arriving at the space betAveen the bases of the tAvo first metatarsal bones, it plunges into the sole of the foot, and immedi- ately joins the plantar arch. branches: 1. A. Recurrens, Avhich ramifies over the fore part of the knee, inosculating with the articular arte- ries. 2. Numerous twigs to the tibialis anticus, extensor pollicis, and other muscles on the fore part of the leg. 3. A. Malleolaris Interna ramifies over the inner ankle, and inosculates Avith the peroneal and pos- terior tibial arteries. 4. The External Malleolar ramifies o\rer the outer ankle. 5. The Tarsal and Metatarsal Arteries, are tAvo small branches Avhich cross the tarsal and metatarsal bones, and pass obliquely to the outer edge of the foot. From the tarsal or metatarsal artery come off the Interosseal Arteries, Avhich supply the interosseal spaces, and the back part of the toes. 6. A large branch comes off from the anterior tibial, Avhere it is about to plunge into the sole of the foot; it runs along the space betAvixt the first tAvo metatar- sal bones, and at the anterior extremity of those bones bifurcates into, (1.) A. Dorsalis Hallucis, a'considerable branch Avhich runs on the back part of the great toe. GUIDE TO ANATOMY. 209 (2.) A branch which runs on the inner edge of the toe next to the great one. 2. VEINS. The Anterior Tibial Vein consists of tAvo branches, Avhich accompany the artery and its ramifi- cations. 3. NERVES. The Anterior Tibial nerve is a branch of the peroneal nerve; it is seen in the ham arising from the peroneal, and crossing under the muscles on the out- side of the fibula:—It emerges from under the exten- sor longus digitorum, comes in contact Avith the ante- rior tibial artery, and accompanies it down the leg; it is distributed on the back of the foot and toes. VESSELS AND NERVES OFTHE POSTERIOR PART OF THE LEG. 1. ARTERIES. Arteria Tibialis Postica. The posterior tibial artery, which is the continued trunk of the popliteal, sinks under the origins of the soleus, and runs doAvn the leg between that muscle and the more deeply seated flexors of the toes: It does not lie in immediate con- tact with the fibres of the flexors, but, like the femo- ral artery, is imTested by a strong sheath of condensed cellular membrane. It is, together Avith its veins and accompanying nen^e, also supported by the fascia which binds "down the deep seated muscles. As it descends, it gradually advances more fonvards, fol- 18* 210 LONDON DISSECTOR, OR lowing the course of the flexor tendons: it passes be- hind the inner ankle, in the sinuosity of the os calcis, lying posterior to the tendon of the flexor longus digitorum, and anterior to that of the flexor longus pollicis. Here it is close upon the bone, and in the living subject its pulsation may be felt. It sinks under the abductor pollicis, arising from the os calcis, and immediately divides into two branches: (l.)Theu Internal Plantar Artery is the smaller, and ramifies among the mass of muscles situated on the inner edge of the sole of the foot. (2.) The External Plantar Artery directs its course outwards, and having reached the metatarsal bone of the little toe, forms the Plantar Arch, which crosses the three middle metatarsal bones obliquely, about their middle, and terminates at the space betwixt the first two metatarsal bones, where the trunk of the an- terior tibial artery joins the arch. The convexity of this arch is tOAvards the toes, and sends off the follOAV- ing branches. a, A small branch to the outside of the little toe. 6, Ramus digitalis primus, or the first digital artery, Avhich runs along the space between the last two me- tatarsal bones, and bifurcates into two branches, one to the inner side of the little toe, and the other to the outer side of the next toe. c, The second digital artery, which runs along the next interosseous space, and bifurcates in a similar manner. d, The third digital artery. e, The fourth, or great digital artery, which sup- plies the great toe, and the inner side of the toe next to it. The concavity of the arch sends off the interos- seal arteries, three or four small twigs, which go to the deep-seated parts in the sole of the foot, and, perforating between the metatarsal bones, inosculate GUIDE TO ANATOMY. 311 with the superior interosseal arteries on the upper side of the foot. The branches of the Posterior Tibial Artery in the leg are, 1. The Peroneal Artery, which comes off from the tibial a little after it has sent off the anterior tibial, of which this artery is sometimes a branch; it is generally of a considerable size, sometimes nearly as large as the tibial itself; it runs upon the inside of the fibula, giving numerous branches to the peroneal muscles and flexor of the great toe; but its course is irregular and inconstant. At the lower part of the leg, it splits into, a, A. Peronea Anterior, which passes betAvixt the loAver heads of the tibia and fibula, to the fore- part of the ankle, Avhere it is lost. b, A. Peronea Posterior is properly the termi- nation of the artery; it descends along the sinuosity of the os calcis, inosculating Avith the branches of the tibialis postica, and terminates in the posterior part of the sole of the foot. 2. Muscular branches arise from the artery as it descends; twigs also are sent over the heel and ankle. 2. VEINS. Ven^; Tibiales PosTiciE.—The posterior tibial veins are generally tAvo in number; they accompany the artery, and terminate in the popliteal vein; they are formed of branches, Avhich correspond to those of the artery. 3. NERVES. The Posterior Tibial Nerve, which is the con- tinuation of the great sciatic nerve, sinks below the soleus, and accompanies the posterior tibial artery; it gives off numerous filaments to the muscles in its neighbourhood. At first it continues, as in the ham, 212 LONDON DISSECTOR, OR immediately behind the artery, but it gradually gets on the outside of it as it descends; so that Avhere they pass along the sinuosity of the os calcis, the nerve is situated close in contact Avith the side of the artery, but nearer to the projection of the heel than that vessel is. With the artery, it divides into, 1. The internal plantar nerve, and, 2. The external plantar nerve.—These nerves sup- ply the muscles and integuments in the sole of the foot. OF THE VESSELS OF THE BRAIN. The arteries ramify largely on the pia mater, before they enter the substance of the brain; they come from tAvo large branches. 1. The Internal Carotid Artery enters the skull by a Avinding course through the foramen carot- icum of the temporal bone. After passing through the cavernous sinus, it divides into three branches: 1. Anterior cerebri, passing betAveen the tAvo anterior lobes; 2. Media cerebri, entering the fissura sylvii; 3. Ramus communicans, uniting Avith the basilar. The carotid, Avhile in the cavernous sinus, gives off the arteria ophthalmica, Avhich passes through the fora- men opticum to the eye and its appendages. 2. The Vertebral Artery arises from the sub- clavian, ascends through the foramina in the trans- verse processes of the cervical vertebrae, enters the cranium by the foramen magnum, and gives branches to the dura mater and spinal marroAV.—Uniting with its fellow, it forms the basilar artery, Avhich gives branches to the internal ear, branches to form the cir- culus arteriosus, and then divides into tAvo lar°-e branches called Posteriores Cerebri, Avhich sup- ply the back parts of the cerebrum. GUIDE TO ANATOMY. 213 The Veins pour their blood into the sinuses, Avhich are numerous. None of these veins require particu- lar attention, except the ophthalmic vein, Avhich passes through the foramen lacerum orbitale superius. The principal sinuses, viz. the longitudinal, the tAvo lateral, the inferior longitudinal, &c. have been de- scribed in the dissection of the brain. The remainder of these sinuses are situated in folds of the dura mater, but are not regular in their situation. They transmit their blood to the longitudinal and lateral sinuses, which terminate in forming the internal jugu- lar veins. For the description of the meningeal arteries see page 98, and for the nerves of the brain, see page 108. OF THE VESSELS AND NERVES SEEN IN THE DISSECTION OF THE NECK. ARTERIES. Starting from the arch of the aorta, the student Avill see three large arteries coming off from the up- per part of that arch, viz: the arteria innominata, the left carotid and the left subclavian. From the innom- inata proceed the right common carotid, and the right subclavian. The carotid artery ascends from the thorax by the side of the trachea; on its outer side it has the inter- nal jugular vein, and behind it the par Aagum and in- tercostal nerves. All these parts are connected and inclosed by condensed cellular membrane, Avhich forms for them a kind of sheath. At the bottom, and in the middle of the neck, the carotid is covered by the sterno-cleido-mastoideus; at the upper part, by adipose 214 LONDON DISSECTOR, OR membrane, absorbent glands, and the platysma myoi- des. It lies deep on the muscles of the spine, and gives off no branches, until it reaches the space be- tween the larynx and the angle of the jaAV, just below the cornu of the os hyoides, Avhere it divides into the external and internal carotids. Of the tAvo, the internal carotid is situated more outwardly; it passes deep to the base of the cranium, Avhere it enters the foramen caroticum, to supply the brain. The external carotid immediately begins to send off branches. Anteriorly it sends off, 1. The A. Thyroidea Superior.—This artery passes downwards and forwards, to ramify on the thyroid gland, Avhere it inosculates with the artery of the other side, and Avith the inferior thyroid arteries. In this course, it sends ramifications to the integuments, the outside of the larynx, the muscles, &c. and one remarkable branch, the A. Laryngea, which some- times arises from the trunk of the external carotid; it is a small artery Avhich divides betwixt the os hyoides and thyroid cartilages, to supply the internal parts of the larynx. 2. A. Lingualis, vel Ranina.—The sublingual ar- tery passes over the cornu of the os hyoides, then behind the mylo hyoideus, over the stylo-glossus, hyo-glossus, and genio-hyo-glossus, to which it gives branches, and terminates in running along the inferior part of the tongue from its base to its apex. It gives branches, to the muscles about the chin, and to the substance and back part of the tongue. 3. A. Maxillaris Externa.—The external max- illary artery passes under the stylo-hyoideus and pos- terior belly of the digastricus, then buries itself under the submaxillary gland. It runs over the lower jaw before the anterior edge of the masseter muscle, to supply the face. guide to anatomy. 215 In its passage, it gives off numerous branches.—One is worthy of notice, which runs along under the line of the lower jaAv, and passing over the jaw near the symphysis, supplies the chin. Other twigs supply the submaxillary gland, &c. Posteriorly the carotid sends off, 4. A. Occipitalis.—The occipital artery crosses backwards and upAvards, over the internal jugular vein and internal carotid artery, under the belly of the digastric muscle: it passes through a slight groove in the mastoid process beloAV its great fossa, and rami- fies on the back part of the head. A remarkable branch of the occipital passes towards the base of the skull, to inosculate near the foramen magnum occipi- tis, with branches from the vertebral and posterior cervical arteries. 5. A. Pharyngea is a small branch of the carotid, which passes imvards to the pharynx and base of the skull. 6. Posterior Auris, Avhich passes backAvards and upAvards in the fold betAveen the ear and scalp, and is distributed on the integuments of the head. The external carotid ascends behind the angle of the jaw, and enters the parotid gland, where it divides into, 7. A. Maxillaris Interna. 8. A. Temporalis. 9. A. Transversalis Faciei. These arteries will be described in the dissection of the face. veins. The Internal Jugular Vein is a continuation of the lateral sinus Avhich passes through the foramen lacerum in the base of the cranium. It comes out deep from under the angle of the jaw, and in its course down the neck, it runs on the outer side of the 216 LONDON DISSECTOR, OR carotid artery, before it reaches the thorax; it passes rather more fonvards than the artery, to join the sub- clavian vein. Its branches accompany the ramifications of the external carotid. At first the vein Avhich accompa- nies each artery is a single branch, but it soon subdi- vides, so that two veins accompany one artery. NERVES. 1. The Eighth Pair, or Par Vagum.—On sepa- rating the internal jugular vein, and trunk of the caro- tid artery, the par vagum is seen lying in the same sheath of cellular substance with those vessels. It lies in the triangular space formed betAvixt the back part of the artery and vein, and the subjacent mus- cles. This nerve comes out of the foramen lacerum with the jugular vein; hence it adheres to that vein more closely than to the artery or muscles; it runs dovvn the neck behind these vessels. In this course it gives off several nerves. (1.) At the base of the cranium, it sends off several filaments, Avhich are connected Avith the other nerves coming out of the base of the skull; such as the ninth pair, the superior cervical ganglion of the intercos- tal, &c. (2.) Nervus Glosso-Pharyngeus is sent off from the eighth pair, deep under the angle of the jaAV. It passes behind the carotids tOAvards the muscles aris- ing from the styloid process; one principal branch of it passes betAveen the stylo-pharyngeus and stylo- glossus to the tongue, Avhile other twigs run behind the stylo-pharyngeus, to supply the pharynx. (3.) Nervus Laryngeus Superior, vel Inter- nus.—The superior or internal laryngeal nerve passes behind the internal carotid artery, obliquely, doAvn- wards and fonvards; then, under the hyo-thyroideus GUIDE TO ANATOMY. 217 muscle, it plunges betwixt the os hyoides and thyroid cartilage, accompanying the laryngeal artery, and supplying the internal parts of the larynx. (4.) In the neck, also, the par vagum gives off fila- ments to the cervical ganglions of the intercostal nerve, and to communicate with the other nerves of the neck. Filaments also unite with twigs of the intercostal, and run down over the carotid artery to tbe great vessels of the heart, where they form the superior cardiac plexus. The par vagum enters the thorax by passing be- twixt the subclavian artery and vein. 2. The Intercostal, or Great Sympathetic Nerve.—This nerve lies behind the carotid, in the cellular membrane, betwixt that vessel and the mus- cles covering the vertebrae of the neck. It is distin- guished from the par vagum by being smaller, lyinir nearer the trachea, and adhering to the muscles of the spine; also by its forming several ganglions. It arises from the sixth pair in the cranium, and comes out by the same foramen as the carotid artery. Immediately after its exit from the skull, it forms the Superior Cervical Ganglion, A\rhich is very long, and of a reddish color. The nerve aftenvards becomes smaller, and descends; and opposite the fifth or sixth cervical vertebra, it forms another SAvelling, the Inferior Cervical Ganglion. Sometimes it has another ganglion about the fourth or fifth vertebra of the neck, the Middle Cervical Ganglion; but this is not a constant appearance. The nerve then passes behind the subclavian artery into the thorax. The branches of the intercostal nerve are nume- rous, and they generally pass off from the ganglions. Immediately below the base of the cranium, tAvigs go to the eighth and ninth pairs, and to the upper cervical nerves. In the middle of the neck, some tAvigs pass over the carotid; others go to the parts covering the 19 218 LONDON DISSECTOR, OR trachea, and uniting with filaments of the par vagum, form the external laryngeal nerves; others unite with the descendens noni, or descending branch of the ninth pair, and some filaments assist the tAvigs of the par vagum to form the superior cardiac nerve. In the lower part of the neck, twigs are sent to communicate with the cervical nerves, &c. 3. The Ninth Pair, Nervus Hypo-glossus, or Lingual nerve, having left the skull by the anterior condyloid foramen, is connected Avith the eighth pair and intercostal nerve. Like them, it lies deep, and comes out from under the angle of the jaAV. It is seen passing from behind the internal jugular vein, and then over the carotid artery, running betwixt these two vessels. It next passes under the mylo-hyoideus, running over the stylo-glossus, hyo-glossus, and genio- hyo-glossus, which last muscle its numerous branches perforate. Branches.—While the nerve is passing betAvixt the jugular vein and the carotid artery, it sends off the Descendens Noni.—This small and delicate nerve descends on the fore part of the vein and artery, and is distributed to the muscles on the anterior part of the trachea. It is joined by filaments of the cervical nerves. 4. The Lingual Branch sent off by the third branch of the fifth pair of nerves, is also seen in the dissection of the neck. It is found under the mylo- hyoideus; it lies close upon the lower edge of the jaw-bone, betAvixt the inferior edge of the pterygoid- eus internus and the upper part of the mylo-hyoideus. It gives numerous tAvigs to the sublingual gland and submaxillary duct, Avhich are situated near it, and is lost in the substance of the tongue. 5. Nervus Accessorius ad Par Vagum.—The accessory nerve, having passed out of the cranium with the par vagum, separates from it, passes behind guide to anatomy. 219 the internal jugular vein obliquely downwards and backAvards; it perforates the mastoid muscle, and is distributed to the trapezius and muscles about the shoulder; it is much connected Avith the third and fourth cervical nerves. 6. The Seven Cervical Nerves come out from the foramina betAvixt the vertebrae of the neck. They send numerous branches to the muscles, &c, on the side of the neck, and communicate by filaments with all the other nerves in the neck. In this stage of the dissection, Ave may also see, 7. The Phrenic Nerve, formed by branches of the third and fourth cervical nerves. This small nerve lies upon the belly of the anterior scalenus muscle, and dives into the thorax, betAvixt the subclavian artery and Arein. 8. The Recurrent Nerve, a branch sent off from the par vagum in the thorax, is also seen in the neck. Dissect betAveen the under surface of the trachea and oesophagus at the lower part of the neck, and you will find the recurrent nerve situated there. 9. The upper part of the Great Brachial Plex- us may be seen arising on the side of the neck, from the loAver cervical nerves, and passing behind the an- terior scalenus, to reach the arm. A general view of the distribution of the spinal nerves may be usefully subjoined in this place, to complete the description of the nerves. 1. The Cervical Nerves consist of seven pairs; they spread their branches over the side of the neck, and to the muscles moving the head and shoulders. The superior nerves send branches to the side of the head, and the inferior to the upper part of the chest and back. They also communicate freely Avith each other, and with all the neighboring nerves;—high in the neck, and under the jaw, with the portio dura of the seventh pair, with the fifth, eighth, and ninth pairs, 220 LONDON DISSECTOR, OR and with the great sympathetic;—tOAvards the middle of the neck, with the descendens noni, the sympathetic and eighth pair, and in the loAver part of the neck with the sympathetic. The Phrenic Nerve is formed by branches of the third, fourth, and fifth cervical nerves, passes obliquely down the neck through the thorax, then on each side of the pericardium, and is distributed to the dia- phragm. The Axillary Plexus is formed by the principal parts of the trunks of the fourth, fifth, sixth, and seventh cervical, and first dorsal nerves. 2. The Dorsal Nerves are tAvelve pairs. They arise from the spinal marroAV in the same manner as the cervical. Each nerve emerges betwixt the heads of the ribs, gives tAvigs to the great sympathetic nerve, and tAvigs which pierce backAvards to the muscles of the back; then, entering the groove in the loAver edge of each rib, it accompanies the intercostal artery, and runs towards the anterior part of the thorax, supply- ing the great muscles of the chest, giving twigs to the diaphragm, and muscles of the abdomen. 3. The Lumbar Nerves are five pairs. They arise in the same manner; their trunks are covered by the psoas magnus muscle. Each nerve gives tAvigs to the muscles of the loins and back, and to the sympa- thetic nerves, and runs obliquely dowmvards to supply the abdominal muscles and integuments of the groin and scrotum; but the trunks of these nerves assist in forming the nerves of the thigh. 4. The Sacral Nerves are five on each side, arising from the cauda equina. They come out through the anterior foramina, and send small branches to the neighboring parts; but the great trunks of these nerves are united with the lumbar nerves to form the nerves of the loAver extremity, viz. (1.) The Anterior Crural Nerve, passing out guide to anatomy. 221 under Poupart's ligament to the extensor muscles of the leg, is formed by branches of the first, second, third, and fourth lumbar nerves. (2.) The Obturator Nerae, leaving the pelvis by the thyroid holes, and being distributed to the deep seated muscles on the inside of the thigh, arises from branches of the second, third, and fourth lumbar nerves. (3.) The Ischiatic or Sciatic Nerve, the greatest nerve of the body, passes out from the back part of the pelvis, through the sacro-sciatic notch, and takes its course along the back of the thigh, to supply the thigh, leg, and foot; it is formed from the last two nerves of the loins and the first three of the sacrum. All these nerves of the spine communicate freely by numerous tAvigs, and by the intervention of The Great Sympathetic Nerve8 or Intercos- tal. This nerve, originally derived from the sixth pair, and from some filaments of the fifth, passes out of the cranium Avith the carotid artery. It then de- scends through the neck, and forms three ganglions in its course, Avhich give tAvigs to the neighboring parts, and are joined by filaments from the cervical nerves, and the eighth and ninth pairs. The intercostal then enters the thorax, and descends by the side of the vertebrae, behind the pleura, giving filaments, Avhich, joining with tAvigs of the eighth pair, form several plexuses to supply the heart, lungs, &c. In the ab- domen it descends on the lumbar vertebrae, and at last terminates in the pelvis on the extremity of the coccyx. While in the thorax, it gives off a branch, Avhich, uniting with branches of the dorsal nerves, forms The Anterior Intercostal, or Splanchnic Nerve.—This nerve, passingbetAvixt the crura of the diaphragm, enters the abdomen, forms the semilunar 19* 222 LONDON DISSECTOR, OR ganglion, and is distributed by numerous plexuses to all the abdominal viscera. The Eighth pair, or par vagum, has also a very long course; it arises in the head, passes through the neck, to which it gives several branches. It enters the thorax anterior to the subclavian artery; here it gives off a remarkable branch, called the Recurrent, because it is reflected round the arch of the aorta on the left side, and round the subclavian artery on the right, and ascends to be distributed on the trachea, oesopha- gus, and larynx. The nerve then passes through the thorax, and, entering the abdomen, terminates in the stomach; in this course it has frequent communications with the great sympathetic, Avhich it assists in forming the different plexuses that supply the thoracic and abdominal viscera. It is distributed to the heart, lungs, liver, spleen, stomach, and duodenum. COURSE OF THE SUBCLAVIAN ARTERY ON EACH SIDE-. The subclavian artery passes upAvards and out- Avards, runs under the clavicle, and over the middle of the first rib; it passes between the bellies of the anterior and middle scaleni muscles, then runs under the arch of the pectoralis minor, and enters the axilla, Avhere it assumes the name of Axillary Artery. The order in which the folloAving arteries are sent off from the subclavian varies much; sometimes they come off singly, at other times in large trunks, which subdivide. Backwards the subclavian sends off, 1. The Vertebral artery.—This artery arises from the back part of the subclavian, passes outwards and enters the foramen in the transverse process of GUIDE to anatomy. 223 the last cervical vertebra, and ascends through the transverse processes of the vertebrae, to enter the foramen magnum of the occipital bone. 2. The Inferior Thyroid Artery ascends ob- liquely inwards, passes behind the internal jugular vein, to ramify on the thyroid gland, where it inos- culates largely with the superior thyroid arteries. Branches from this artery pass to the trachea and oesophagus, to the muscles of the neck, and of the scapula: one of these is the supra scapulary artery. (See the account of the branches of the axillary artery.) 3. A. Cervicalis Anterior, vel Profunda, passes deep to the muscles situated on the fore part of the cervical vertebras, and ascends as high as the base of the skull. 4. A. Cervicalis Posterior, vel Superficialis, is larger than the last; it ascends obliquely outwards, generally passes betAvixt the transverse processes of the last cervical and first dorsal vertebrae, and ascends on the back part of the neck, deeply seated; some of its branches pass doAvn the back superficially. Anteriorly, the subclavian artery gives off, 5. A. Mammaria Interna. The internal mam- mary arises from the fore part of the subclavian, op- posite the cartilage of the first rib; it runs doAvn on the inside of the cartilages of the ribs, and terminates in the abdominal muscles, Avhere it inosculates with the epigastric. It is a large artery, and its branches are very numerous. They pass to the external muscles of the chest, to the intercostal muscles, pleura, &c. It also sends off the Arteria Phrenica Superior, vel comes nervi phrenici, Avhich, Avith tAvo veins, accom- panies the phrenic nerve to the diaphragm. 6. The subclavian artery gives twigs to the root of the neck, and to the muscles about the scapula. 7. A. Intercostalis Superior. Frequently a 324 LONDON DISSECTOR, OR trunk comes off from the subclavian, especially on the right side, Avhich passes doAvmvards and backwards, and lodges itself by the spine, to supply the two or three superior intercostal spaces. COURSE OF THE SUBCLAVIAN VEIN. The subclavian vein is situated anteriorly to the subclavian artery; it passes inwards behind and under the subclavius muscle, and before and over the belly of the anterior scalenus (so that this last muscle lies betAvixt the vein and artery.) It runs over the first rib, from under the arch of the pectoralis minor, where it is found in contact with the axillary artery, and is called the Axillary Vein. The branches of this vein accompany and corres- pond to the ramifications of the subclavian artery, returning the blood from the thyroid gland, neck, chest, intercostal spaces, &c. The subclavian vein also receives the internal jugular, Avhich passes down be- hind the clavicle. THE COURSE OF THE BRACHIAL PLEXUS OF NERVES May also be examined. This plexus is formed by branches of the four lower cervical and first dorsal nerves, which pass between the anterior and middle scaleni muscles into the axilla. In this passage they are situated higher up than the artery. DISSECTION OF THE AXILLA OR ARMPIT. There is a considerable resemblance in the dis- section of the axilla to that of the ham or groin; in each of these situations we meet with important blood- GUIDE TO ANATOMY. 225 vessels and nerves, closely connected, embedded in adipose membrane, and seated in the flexure of a joint. The axilla is formed by tAvo muscular folds which bound a middle cavity. The anterior fold is formed by the pectoralis major passing from the thorax to the arm, the posterior by the latissimus dorsi coming from the back. In the intermediate cavity there is a quantity of cellular membrane and absorbent glands, covering and connecting the great vessels and nerves. This cellular and adipose membrane is continued from the interstice above the clavicle betAvixt the edges of the trapezius and mastoid muscles. All the space before the root of the neck above the first rib, and under the clavicle and coracoid process of the scapula, and the interstices of the muscles passing through that space, are filled up by a quantity of adipose membrane; and this is not exactly similar to the fat in other parts of the body; it is more granulated, watery, and of a reddish color; it surrounds the great vessels and nerves, rendering the dissection both tedious and difficult. The Axillary Vein will be found lying anterior to the artery, that is, nearer the integuments. It seems to be a continuation of the basilic vein, which runs along the inside of the arm quite superficial, and of the two or three venae satellites, or veins which accompany the brachial artery. The axillary vein receives branches corresponding to the ramifications of the artery. Passing under the clavicle, it becomes the subclavian vein, and runs over the first rib, and before the anterior scalenus muscle into the thorax. Deeper seated, and immediately behind the axillary vein, lies the Axillary Artery. It is seen coming from under the clavicle; from under the arch formed by the pectoralis minor, it comes over the middle of the first rib, and between the anterior, and middle 226 LONDON DISSECTOR, OR scaleni muscles. In the axilla it is surrounded by the meshes of the nerves, and runs along the inferior edge of the coraco-brachialis muscle; when it has passed the anterior edge of the pectoralis major, it assumes the name of the Brachial Artery. The branches of the axillary artery are, 1. A. Mammaria Externa; called also, A. Tho- racicae Externas.—The external mammary artery consists of three or four branches which run doAvn- Avards and forwards obliquely over the chest. These branches sometimes come off separately from the axillary artery, at other times by one or tAvo common trunks, Avhich subdivide. They supply the pectoral muscles and mamma. Some of their branches pass to the muscles of the shoulder, to the side of the chest, and to the muscles on the inside of the scapula. 2. A. Scapularis Interna, Supra-scapularis, or Dorsalis Scapulae, is sent off from the back-part of the axillary artery. It runs across the bottom of the neck towards the root of the coracoid process, and passes through the semilunar notch in the superior costa of the scapula; it supplies the supra-spinatus muscle, and then passes under the acromion, to ramify on the muscles beloAV the spine of the scapula. It is generally a branch of the A. Thyroidea Inferior, and is then named A. Transversalis Humeri. 3. A. Scapularis Externa, Infra-scapularis, or Thoracica Posterior, arises from the under and back part of the axillary artery, attaches itself to the inferior costa of the scapula, where it splits into tAvo great branches: 1. A large branch, which passes to the outer surface of the scapula below the spine, and has its principal ramifications close upon the bone. 2. The other branch (Avhich is larger) passes to the inner surface of the scapula, supplies the subscapu- laris, and sends branches doAvmvards to the muscles of the back and loins. GUIDE to anatomy. 227 4. Arteria Circumflexa Humeri Posterior Humeralis, or Reflexa Articularis, arises from the lower and fore part of the axillary artery, and runs backwards close to the bone, surrounds its neck, and is lost on the inner surface of the deltoid; it gives also twigs to the joint and neighbouring muscles. 5. A. Circumflexa Anterior is a much smaller artery, often a branch of the circumflexa posterior; it encircles the neck of the bone on its fore-part, and is lost on the inner surface of the deltoides, where it inosculates with the posterior circumflex artery. The Great Brachial Nerves accompany the subclavian artery over the first rib. In the axilla they are united by numerous cross branches, forming the Axillary or Brachial Plexus, which is continued from the clavicle as low as the edge of the tendon of the latissimus dorsi, and which surrounds the axillary artery Avith its meshes. From the axillary plexus seven nerves pass off. 1. Nervus Supra-scapularis, Scapularis Exter- nus, Scapularis.—This nerve comes off from the upper edge of the plexus; it crosses the axilla at the highest part, runs towards the superior costa of the scapula, accompanies the external scapular artery through the semilunar notch, and supplies the mus- cles on the posterior surface of the scapula. 2. N. Circumflexus, Articularis, Axillaris, or Humeralis, lies deep: it passes from the back part of the plexus, goes backAvards round the neck of the bone, accompanying the posterior circumflex artery, and is distributed to the musculus deltoides, and the muscles on the outside of the arm. Small nerves also pass from the axillary plexus to the subscapular muscle, the teres major, latissimus dorsi, and pecto- ral muscles. 3. The External Cutaneous Nerve, or Nervus- Musculo-cutaneus. 228 LONDON dissector, or 4. The Radial Nerve. 5. The Ulnar Nerve. 6. The Muscular or Spiral Nerve. 7. The Internal Cutaneous Nerve. These five nerves will be described in the dissec tion of the arm and fore-arm. DISSECTION OF THE POSTERIOR MEDIAS- TINUM,* AND OF THE NERVES AND VESSELS WHICH HAVE THEIR COURSE THROUGH THE THORAX. Course of the Phrenic Nerve through the tho- rax.—On each side this nerve is seen entering the thorax betAvixt the subclavian artery and subclavian vein; it then proceeds dowmvards and fonvards before the root of the lungs, and on the outside of the peri- cardium, betwixt that bag and the pleura; and is lost on the diaphragm. The left phrenic nerve has a someAvhat longer course than the nerve of the right side, as it passes over the pericardium, Avhere that bag covers the apex of the heart. This nerve is accompanied by one artery and tAvo veins; some twigs pass from the phrenic nerve into the abdomen, to the liver, &c. Behind the arch of the aorta and great vessels pass- ing from the heart, is seen the Trachea. It enters the thorax between the tAvo pleuras, and, opposite the third or fourth dorsal vertebra, bifurcates into two parts: one of Avhich passes toAvard the right, the other toAvard the left, to enter the lung of each side. * By Posterior Mediastinum is designed that part of the mediastinum situated behind the root of the lungs. GUIDE to anatomy. 229 By folding back the lungs towards the left side of the chest, we expose the pleura reflected from the under surface of the root of the lungs to the spine and ribs. A triangular space is formed betwixt the two pleurae and the bodies of the dorsal vertebrae; this space or cavity is named the cavity of the posterior mediastinum. It contains many important parts, and must therefore be carefully dissected. But first let us attend to the course of the intercos- tal, or great sympathetic nerve, which is seen running by the side of the spine. The Intercostal Nerve, where it enters the thorax, is situated behind the great vessels; close upon the articulation of the first rib with the body of the first dorsal vertebra, it forms a ganglion, a twig of Avhich fairly encircles the subclavian artery, while other filaments are entAvisted round the root of the vertebral artery. The intercostal nerve then descends along the thorax; it lies upon the heads of the ribs, where they are articulated Avith the vertebrae; it re- ceives additional branches from all the dorsal nerves, and in each intercostal space it forms a ganglion. This nerve maybe dissected with greater facility Avhen the lungs are removed, and the ribs saAved off near the spine, which Avill enable the dissector to trace its branches more fully. It lies behind the pleura, but is. seen through it; it passes into the abdomen by the side of the spine, running through the fibres of the small muscle of the diaphragm. BRANCHES OF THE INTERCOSTAL IN THE THORAX. The Anterior Intercostal, or Splanchnic Nerve, should be attended to. It is formed by three or four twigs, Avhich come off from the intercostal betwixt the fourth and eighth dorsal vertebrae; these 20 230 LONDON DISSECTOR, OR twigs, passing forward on the bodies of the vertebrae, unite to form the splanchnic nerve, Avhich may be traced entering the abdomen, betAvixt the crura of the small muscle of the diaphragm. From the intercostal also, tAvigs are given off, which assist the branches of the par A-agum, and of the dorsal nerves, in forming several plexuses to supply the vis- cera of the thorax. The right intercostal nerve lies under the pleura by the right side of the spine. Still nearer the middle of the spine, you see the Vena Azygos. In dissect- ing it is found situated betwixt the right intercostal nerve and the aorta; it begins below from ramifications of the lumbar arteries, which pierce the small muscle of the diaphragm. This vein ascends along the spine, receiving veins from each of the intercostal spaces*bf the right side, and, about the middle of the back, it receives a considerable trunk, which comes from un- der the aorta, and returns the blood from the left side of the thorax. At the fourth dorsal vertebra, the vena azygos leaves the spine; it makes a curve forward, and empties its blood into the back part of the vena cava superior, immediately before that vein enters the pericardium. Descending through the posterior mediastinum, will be also found the Aorta. This great artery, having formed its arch, comes in contact with the third dorsal vertebra, and is now called the Descending Aorta, or Thoracic Aorta. It descends along the bodies of the dorsal vertebrae, rather on their left side; it lies be- hind the oesophagus, and passes betwixt the crura of the diaphragm into the abdomen. Branches of the Aorta in the Thorax. 1. A. Intercostales Inferiores.—The arteries which supply the three or four superior intercostal spaces, generally come off in one common trunk, which afterwards subdivides. GUIDE TO ANATOMY. 231 The Intercostalis Superior, on the right side is mostly sent off by the subclavian; on the left side 'by the aorta. The Inferior Intercostals are eight or nine in num- ber on each side of the thorax; they come off sepa- rately from the side or back part of the aorta, and seem to tie that great artery to the spine. Each in- tercostal artery passes immediately into the interval betAvixt tAvo ribs, and there subdivides into, (l.)'A branch Avhich perforates between the heads of the ribs to the muscles of the back; this branch also gives twigs which enter the spinal canal. (2.) The continued trunk of the artery runs for- Avards, in the interval of the two ribs, giving many branches to the intercostal muscles. When it reaches the anterior part of the thorax, it is lost in the mus- cles. Each intercostal artery is accompanied by one or tAvo veins, branches of the vena azygos, and by an intercostal or dorsal nerve. 2. A. Bronchi ales are tAvo, sometimes three, small twigs of the aorta, one of which passes to the lungs on each side; they sometimes arise from the subclavian and superior intercostal. 3. Small arteries pass forwards from the aorta on the oesophagus, named A. G^sophageae; others run to the pericardium and pleura. The' dissector also finds in the posterior mediasti- num the Thoracic Duct. He must look for it behind the oesophagus, betwixt the vena azygos and aorta; it is collapsed, and appears like cellular membrane con- densed, and can only be distinguished Avhen inflated or injected; it was seen in the abdomen close to the aorta, and passing into the thorax betAveen the crura of the diaphragm. It ascends along the posterior mediastinum, and, about the fourth dorsal vertebra, passes obliquely to the left side, behind the aorta 232 LONDON DISSECTOR, OR descendens, and behind the great arch of the aorta, until it reaches the left carotid artery. It runs behind this artery, and behind the left internal jugular vein; and, after forming a circular turn or arch (the con- vexity of which is turned upAvards,) it descends, and enters the left subclavian vein at the point Avhere that vein is joined by the left internal jugular. In its course along the spine, the thoracic duct frequently splits into two branches, Avhich re-unite. The absorb- ents of the right superior extremity, and of the right side of the head and thorax, usually form a trunk, Avhich enters the right subclavian vein. The Oesophagus is also situated betwixt the layers of the posterior mediastinum. It lies immediately before the aorta, but rather tOAvards its left side; it is seen descending from the neck behind the trachea; it passes through an opening in the lesser muscle of the diaphragm, and immediately expands into the stomach. Behind the trachea and Aressels going to the lungs, and on the fore part of the oesophagus, Ave meet Avith a congeries of lymphatic glands. COURSE OF THE l'AK VAGUM, OR EIGHTH PAIR OF NERVES, IN THE THORAX. From the neck, the par vagum passes betwixt the subclavian vein and artery into the thorax; it imme- diately sends off a large branch, the Recurrent Nerve, back into the neck. On the right side, this branch twists round under the arteria innominata; on the left side, under the arch of the aorta, it ascends behind the carotid, and lodges itself betwixt the tra- chea and oesophagus, to both of which it gives branches, The par vagum, having given off the recurrent, descends by the side of the trachea, and behind the root of the lungs. It here sends off numerous fila- ments to the lungs, Avhich, uniting Avith twigs from GUIDE TO ANATOMY. 233 the great sympathetic, form the Anterior and Pos- terior Pulmonary Plexuses; these plexuses lie on the anterior and posterior surfaces of the root of the lungs. Other twigs of the par vagum pass, to form the inferior Cardiac Plexus about the pericardium. The trunk of the eighth pair soon reaches the oeso- phagus; the left par vagum runs on the fore part of the oesophagus, the right nerve on its back part. Here they split into several branches, which unite again, and form a Plexus. This plexus is called the Oesopha- geal. The two nerves continue their course along the oesophagus, and pass Avith it through the diaphragm, to ramify on the stomach, and form the stomachic plexus. The tAvelve dorsal or intercostal nerves are also seen in this dissection, emerging from the spinal canal, between the bodies of the vertebras, and supplying the intercostal muscles, &c. OF THE VESSELS AND NERVES OF THE FACE. ARTERIES. The A. Maxillaris Externa, the third branch of the carotid, comes from the neck over the lotver jaAV at the anterior edge of the masseter. It then runs under the depressor anguli oris, passes tOAvards the angle of the mouth, and is often much contorted. Here it is named the A. Facialis or Angularis. It ascends by the side of the nose, and, reaching the inner angle of the eye, is lost on the muscles situated there, inos- culating freely with the temporal, internal maxillary, and ophthalmic arteries. In this course it giAes off many branches: 1. TAvigs to the masseter, depressor 20* 234 LONDON dissector, or anguli oris, and chin; 2. A. Coronaria Labiorum. This artery is very much contorted.—At the angular commissure of the lips, it divides itself into tAvo branches, which run along the superior and inferior portions of the orbicularis oris, and join the same branches of the other side. 3. While the facial artery ascends by the side of the nose, it gives off the external nasal arteries to the outside of the nose, and the A. Buccales to the cheek. The External Carotid is found ascending behind the parotid gland. It perforates the gland at its upper part, ascends over the zygomatic process immediately before the ear, and divides into the anterior, middle, and posterior temporal arteries, which ramify over the side of the head, giving also branches to the fore- head and occiput. But the carotid, while it lies embedded under the parotid, sends several twigs to the substance of that gland, and a considerable artery which passes for- wards, and, ramifying on the side of the face, is named A. Transversalis Faciei. At this point also, the carotid sends off a large artery, the A. Maxillaris Interna. As many branches of this artery are met Avith in the dissection of the face, it is proper to give a vieAV of its distribution. The Internal Maxillary passes behind the condyloid process of the loAver jaw: it directs its course tOAvards the bottom of the orbit of the eye; and it is at this point that it sends off its numerous branches. (1.) Arteria Media Dvrje Matris (or Meningea spheno-spinalis or spinosa) passes through the spinal hole of the sphe- noid bone into the cranium, and is distributed to the dura mater. (2.) A. Maxillaris Inferior, vel Dentalis Inferior, runs dowmvards, enters the foramen at the root of the ascending processes of the lower jaw; then passes through the canal of the lower jaw, supplying the teeth and sockets, and emerges by the GUIDE TO ANATOMY. 235 foramen mentale, to be distributed to the chin. It is accompanied by a nerve and one or two veins. (3.) A. Pterygoideae and A. Temporales Profundas, are small branches of the internal maxillary which pass to the pterygoid muscles, and to the inner part of the temporal muscle. (4.) A. Pharyngeal, branches to the pharynx, palate, and base of the skull. (5.) A. Are- olaris, Avhich gives branches to the teeth of the upper jaw, and to the jaw-bone itself. (6.) A Branch through the foramen spheno-palatinum to the nose; and, (7.) An Artery through the palato-maxillary canal to the palate. The continued trunk of the internal maxillary enters the orbit by the spheno-maxillary slit. It sends off a branch which runs along the inner side of the orbit, and passes out at the inner canthus of the eye on the forehead. The artery itself runs along the bottom of the orbit in a canal on the upper part of the great tuberosity of the os maxillare superius, and emerges by the foramen infra-orbitarium on the face; hence it is termed A. Infra-Orbitaria, and is distributed to the cheek and side of the nose. The Frontal Artery is also seen in the dissection of the face, passing from the orbit through the foramen supra-ofbitarium to be distributed to the forehead. This artery is sent off from the ophthalmic artery, which is a branch of the internal carotid. If the face be injected, a remarkable anastomosis of arteries will be observed at the inner angle of the eye. VEINS. The veins of the face are numerous, and pass into the external and internal jugular veins. 236 LONDON DISSECTOR, OR NERVES. 1. The Portio Dura of the seventh pair, Nervus Communicans Faciei, or Facial Nerve, after its course through the temporal bone in the aqueduct of Fallppius, comes out by the foramen stylo-mastoideum. It immediately gives off branches to the neighboring parts, as behind the ear. It then passes through the substance of the parotid gland, and emerges on the face in three great branches, which have frequent mutual communications: this division of the nerve is called Pes Anserinus. (1.) The ascending branch ramifies on the temple and forehead. (2.) The middle branch sends its ramifications over the side of the face, the proper Facial Nerves. (3.) The descending branch sends its tAvigs along the chin, doAvn upon the neck, and backwards upon the occiput. 2. The Superior Cervical Nerves send off seAeral branches, Avhich ramify on the side of the face and head, and communicate freely Avith the branches of the portio dura. As, in the course of this dissection, Ave meet Avith many twigs of the second and third branches of the fifth pair of nerves, it will be advisable here to describe these nerves. 3. Nervus Maxillaris Superior, or Second Branch of the Fifth Pair. The superior maxillary nerve, having left the cranium by the foramen rotun- dum of the sphenoid bone, emerges behind the antrum maxillare, at the lower back part of the orbit, and at the root of the pterygoid process of the sphenoid bone. It immediately sends out branches: 1. A small branch which passes through the spheno-maxillary slit to the periosteum and fat of the orbit. 2. The largest branch is the Infra-Orbitary Nerve. It enters guide to anatomy. 237 the channel in the top of the antrum maxillare, accom- panying the infra-orbitary artery, comes out at the foramen infra-orbitarium, and is widely distributed to the cheek, under lip, and outside of the nose, commu- nicating Avith ramifications of the portio dura. 3. Branches to the temporal muscle, os malae, &c. 4. Other branches form a small ganglion at the root of the orbit, which sends tAvigs, named the superior Nasal Nerves, through the foramen spheno-palatinum to the nose. 5. The Vidian Nerve, Avhich enters the fora- men pterygoideum, and passes again into the cranium, to connect itself Avith the portio dura. 6. The Pala- tine Nerve, Avhich runs through the palato-maxillary canal to the palate. 7. Twigs which supply the gums and alveoli of the upper jaw. 4. Nervus Maxillaris Inferior, or Third Branch of the Fifth Pair. The inferior maxillary nerve leaves the cranium by the foramen ovale of the sphenoid bone. It has its course downwards and out- AAards; and, having given tAvigs to the parts near Avhich it passes, as the masseter, pterygoid, and temporal muscles, it divides at the angle of the loAver jaAV into tAvo branches. 1. The Nervus Dentalis Inferior enters the foramen at the angle of the lower jaw; accompanies the inferior dental artery along the canal in that bone, giving nerves to the teeth; emerges by the foramen mentale, and is distributed to the chin. 2. The Nervus Gustatorius, vel Lingualis, passes to the tongue. It was seen in the dissection of the neck lying close upon the lower jaw-bone, below the infe- rior edge of the pterygoideus internus, and above the superior fibres of the mylo-hyoideus. It supplies the substance of the tongue, and the salivary glands situ- ated at the root of the tongue. This nerve receives the chorda tympani, a small tAvig which comes from the seventh pair through the slit in the articulating cavity of the temporal bone, 238 LONDON DISSECTOR, OR 5. In the dissection of the face, Ave also meet Avith the Frontal Nerve; Avhich comes from the first branch of the fifth pair, and Avhich is seen accompany- ing the frontal artery through the foramen supra-orbi- tarium. It is distributed to the forehead. OF THE VESSELS AND NERVES MET WITH IN THE ORBIT OF THE EYE. ARTERIES. The Ophthalmic, or Ocular Artery, is a branch of the internal carotid. It enters the orbit from the basis of the cranium by the foramen opticum. It gives branches to the lachrymal gland, fat, muscles, and globe of the eye. One twig, named the A. Centralis Retinas, enters the substance of the optic nerve, and is continued on to the retina;—tAvigs also pass to the eye-lids, and to the inner angle of the eye. The Ar- teria Frontalis is a branch of this artery; it is seen running tOAvards the supra-orbitary notch or foramen, and is distributed to the forehead. The Infra-Orbitary Artery is found in the lower part of the orbit; it is the continued trunk of the internal maxillary, entering the orbit by the sphe- no-maxillary slit. It is seen passing along the canal in the upper part of the great tuberosity of the os maxillare superius, and emerges on the face by the infra-orbitary hole. veins. These correspond with the arteries; they discharge their blood partly into the branches of the external jugular vein near the forehead and temples, and partly into the internal jugular. GUIDE to anatomy. 239 NERVES. 1. The Optic Nerve is seen coming through the foramen opticum, and entering the back part of the globe of the eye, to form the retina. 2. The Nerve of the Third Pair, Motor Oculi, having entered the orbit through the superior orbi- tary fissure, or foramen lacerum, is divided into four branches. (1.) The first runs upwards, and subdivides into tAvo nerves, of Avhich one supplies the levator oculi, and the other the levator palpebrae superioris. (2.) The second branch goes to the depressor oculi, and is short. (3.) The third branch supplies the obliquus inferior, and also gives off a twig, which assists in forming the lenticular ganglion. (4.) The fourth branch supplies the adductor oculi. 3. The Nerve of the Fourth Pair, N. Patheticus, or Trochlearis, enters the orbit by the superior orbi- tary fissure, and runs to the obliquus superior. 4. The first branch of the Nerve of the Fifth Pair, named Ophthalmic, or Orbitary, enters the orbit by the superior orbitary fissure, and divides into three branches. (1.) The Frontal, Supra-orbitary, or Superciliary Nerve, accompanies the frontal artery along the upper part of the orbit, close to the bone; and having passed through the supra-orbitary notch, is distributed to the forehead. (2.) The Nasal Nerve, or inner branch, runs to- Avards the nose, and is distributed to the inner side of the orbit, and to the nose. (3.) The Temporal or Lachrymal Branch supplies the lachrymal gland, and the parts at the outer side of the orbit. The Lenticular Ganglion is a small ganglion, 240 LONDON DISSECTOR, OR situated within the orbit, formed by short branches of the ophthalmic nerve, and by a twig of the third pair. It sends off delicate nerves which run along the sides of the optic nerve, and pierce the coats of the eye. 5. The second branch of the Fifth Pair, called the Superior Maxillary Nerve, sends off a branch through the bony canal in the bottom of the orbit. This is the Infra-orbitary Nerve. It accompanies the artery of the same name, and emerges on the face by the infra-orbitary hole. 6. The Trunk of the Sixth Pair of Nerves passes through the superior orbitary fissure to the abductor oculi. These delicate nerves are surrounded by the adi- pose substance found in the orbit, and require to be dissected Avith the utmost care. DISSECTION OF THE CUTANEOUS VESSELS AND NERVES OF THE SHOULDER AND ARM. In removing the integuments, we meet Avith several cutaneous veins and nerves. The cutaneous veins* of the upper extremity are the folloAving. 1. The Basilic Vein is seen arising from a small vein on the outside of the little finger, named Salva- tella. It then runs along the inside of the fore arm near the ulna, receiving the internal and external ulnar veins from the anterior and posterior surface of the fascia. It passes over the fold of the arm near the inner condyle of the humerus; here it is superficial. * The reins are described from their origin in the fore arm, for the take of perspicuity; they ramify above the fascia of the fore arm. GUIDE TO ANATOMY. 241 it ascends along the arm, becoming more deeply seat- ed, and included in the sheath which invests the brachial artery. As it approaches the neck of the humerus, it sinks deep betwixt the folds of the arm- pit, and terminates in the axillary vein, which maybe considered as a continuation of the basilic vein. It communicates with the deeper-seated veins, and receives numerous branches from the muscles. 2. The Cephalic Vein begins on the back of the hand, between the thumb and metacarpal bone of the fore-finger, by a small vein, named Cephalica Pollicis. It runs along the radius between the muscles and integuments, receiving the internal and external radial veins. It passes over the bend of the arm near the external condyle, and ascends along the outside of the arm near the outer edge of the biceps flexor cubiti. It then runs betwixt the edge of the deltoid and pec- toral muscles, dips down under the clavicle, and enters the subclavian vein. In all this course, the cephalic vein receives branches. 3. The Median Vein. Several veins are seen running along the middle of the anterior part of the fore-arm. The trunk formed by these veins is called the Mediana Major. It ascends on the flat part of the fore arm, betAvixt the basilic and cephalic veins, and bifurcates at the fold of the arm into tAvo branches: 1. The Mediana Basilica, passing off obliquely to join the basilic vein; 2. The Mediana Cephalica, Avhich joins the cephalic. The cutaneous nerves of the arm are seen ramifying above the muscles; they consist of, 1. The Internal Cutaneous Nerve, a branch of the axiliary plexus. It is seen accompanying the basilic vein, and twisting its fibres over it. It descends along the inside of the arm, crosses over the fore part of the elbow-joint, and, in the dissection of the fore arm, will be seen dividing itself into twigs, which ramify 21 242 LONDON DISSECTOR, OR between the fascia and integuments, and are distri- buted to the inside of the fore arm and Avrist. 2. The upper part of the arm receives cutaneous nerves from the branches of the dorsal nerves, Avhich come out of the thorax between the ribs. 3. The shoulder and back part of the scapula receive twigs from the cervical nerves. 4. The external cutaneous, ulnar, and spiral nerves, also send twigs to the integuments of the arm and fore arm. The relative situation of the vessels at the bend of the arm should be well attended to. The cutaneous veins situated here vary much in size. The vena basilica is seen running over the fore part of the bend of the arm near the inner condyle, the vena cephalica situated near the outer condyle; and each of these veins receives a branch passing obliquely from the vena mediana major. These vessels lie above the fascia, while the brachial artery lies deep beneath the fascia, in a holloAV resembling that of the axilla. It descends over the joint near the inner condyle, on the inside of the tendon of the biceps flexor cubiti, and under the aponeurosis sent off from that muscle to the common fascia of the fore arm. It lies embedded in cellular substance, betwixt the pronator teres and flexor muscles of the wrist and fingers on one side, and the supinator longus and extensor muscles on the other. In this hollow it divides into the radial, ulnar, and interosseal arteries. The artery is accompanied by two veins, and on its inner side runs the radial nerve. GUIDE TO ANATOMY. 243 OF THE VESSELS AND NERVES OF THE SUPERIOR EXTREMITY. ARTERIES. The subclavian and axillary arteries have already been described. The Brachial Artery may be said to have its course along the inside of the arm. Having left the axilla, it runs along the inferior edge of the coraco- brachialis. Rather higher up than the middle of the os humeri, it crosses over the tendinous insertion of that muscle, being here situated betAveen the belly of the biceps flexor cubiti, and the superior fibres of the brachialis externus. The artery then passes behind the inner edge of the biceps flexor cubiti, descending betAvixt that muscle and the fibres of the brachialis internus. In dissecting this vessel, we find it invested by a fascia or sheath, formed by cellular membrane and some tendinous fibres. This fascia may be traced extending from the internal intermuscular ligament. It covers the brachial artery and radial nerve; and the great basilic vein, as it enters into the axilla, is found lying in the fore and inner part of this sheath. It supports and connects these vessels. On dissecting this fascia, Ave find, close to the margin of the coraco- brachial is and biceps flexor cubiti, the great radial nerve; under it the brachial artery; and, more super- ficially seated, the venae comites and the vena basilica. As the artery approaches the lower extremity of the os humeri, it inclines fonvards toAvard the fold of the arm, and dives beneath the aponeurosis which arises from the inside of the tendon of the biceps flexor cubiti. Its situation at the fold of the arm has been described. 244 LONDON DISSECTOR, OR BRANCHES OF THE BRACHIAL ARTERY. 1. A. Profunda Humeri Superior, or Muscu- laris Superior, is sent off from the inner side of the brachial artery, immediately Avhere it has left the fold of the arm-pit. It passes doAvmvards and backwards round the os humeri, and is accompanied by the muscular or spiral nerve. It passes betwixt the brachialis externus and short head of the triceps extensor cubiti. Here it lies deep among the muscles, and divides into tAvo branches. One accompanying the nerve spreads its ramifications over the outer condyle, and anastomoses Avith the arteries below the elboAV. The other branch is distributed along the inside of the arm, and about the inner condyle. 2. A. Profunda Humeri Inferior, vel Minor, or Muscularis Inferior, is smaller than the last, and is sent off from the brachial artery about tAvo inches loAver doAvn. It descends among the muscles on the inside of the arm, and is lost about the inner condyle. 3. The anastomosing or collateral arteries are as follows. (1.) The Ramus Anastomoticus Major passes from the inside of the brachial artery, about tAvo or three inches above the inner condyle. It is distributed about the condyle; and its principal branch accom- panies the ulnar nerve in the groove betwixt the olecranon and inner condyle, to anastomose Avith the recurrent branches of the arteries of the fore-arm. (2.) There are tAvo or three more anastomosing branches, Avhich are sent off from the brachial artery, and ramify over the anterior and posterior surfaces of the tAvo condyles. 4. Small branches to the muscles of the arm. The Brachial Artery, Avhere it lies deep under the aponeurosis of the biceps, divides into three branches. 1. The radial; 2. The ulnar; and, 3. The interosse- GUIDE TO ANATOMY. 245 ous artery. The last tAvo generally come off by one trunk, which subdivides. 1. Arteria Radialis, the radial artery, is smaller than the ulnar, and in its course more superficial. It leaves the ulnar artery, and inclines tOAvards the radial or outer edge of the fore-arm. At first it lies betwixt the pronator teres and supinator longus. It then descends close along the inner edge of the supinator longus, and about the middle of the fore-arm passes over the insertion of the pronator teres. It then holds its course betwixt the supinator longus and flexor carpi radialis, and is accompanied by a branch of the muscular or spiral nerve. In this situation the artery continues its course along the radius, till, reaching the lower extremity of that bone, it divides into tAvo branches. (1.) Ramus Volaris, A. Superficialis Vol.e, is by much the smaller of the two branches. It passes into the muscular mass Avhich forms the ball of the thumb, and spreads its ramifications on the palmar fascia, the annular ligament of the Avrist, and muscles of the thumb, anastomosing with the ramifications of the superficial palmar arch. (2.) The trunk of the radial artery crosses over the lower extremity of the radius to the back of the hand. It passes under the extensors of the thumb, over the os scaphoides and the junction of the os tra- pezium and trapezoides, and., arriving at the space betAvixt the bases of the metacarpal bones of the thumb and fore-finger, plunges into the palm of the hand. The branches of the radial artery, in its course along the fore-arm, are the folloAving. (1.) The recurrent artery is sent off from the radial immediately after it leaves the ulnar artery, and is distributed over the anterior part of the outer condyle, 21* 246 LONDON dissector, or where it anastomoses Avith branches of the brachial artery. (2.) Small arteries to the muscles of the fore-arm, and to the radius. (3.) A branch leaves the artery immediately after it has turned over the edge of the radius, and, ramify- ing on the back of the hand, is named Dorsalis Carpi. (4.) Small vessels are sent off to the back part of the thumb, named A. Dorsales Pollicis. Having reached the palm of the hand, the radial artery divides into two branches. (1.) A. Pollicis, Avhich sends tAvo or three arteries along the anterior part of the thumb, and also often giAres off a twig, the A. Radialis Indicis, Avhich passes along the outer edge of the fore-finger, and inosculates with a branch of the ulnar artery. (2.) The trunk of'the radial artery forms the Deep-seated Palmar Arch. From the root of the thumb, it passes across the metacarpal bones near their bases, and terminates at the metacarpal bone of the little finger, inosculating Avith a branch of the ulnar artery. This arch lies deep, close to the bones. It supplies the interosseous muscles and deep-seated parts of the palm, and some of its branches pass betwixt the metacarpal bones to the back of the hand. 2. Arteria Ulnaris, or Cubitalis. The ulnar artery is the largest branch of the brachial, and gene- rally gives off the interosseous artery. It takes its course deep among the muscles on the inside of the fore-arm. It is seen passing under the pronator teres, flexor carpi radialis, palmaris longus, and flexor sub- limis perforatus, but over the flexor profundus perfo- rans. It descends in the connecting cellular membrane between the flexor sublimis and profundus; but about the middle of the fore-arm, it emerges from these muscles, and appears at the ulnar edge of the arm, guide to anatomy. 247 betwixt the flexor sublimis and flexor carpi ulnaris. It passes over the annular ligament of the Avrist, which binds down the flexor tendons of the fingers, but is covered by the fascia Avhich ties doAvn the tendon of the flexor carpi ulnaris. It passes under the palmar aponeurosis, on the inside of the os pisiforme, reaches the base of the metacarpal bone of the" little finger, and begins to form the Superficial Palmar Arch'. This arch lies above the tendons of the flexor sublimis perforatus, immediately beneath the palmar aponeu- rosis. It crosses the metacarpal bones betAvixt their bases and the middle of their bodies. It begins at the root of the little finger, and terminates at the root of the thumb, in inosculations with the branches of the radial artery. The convex side of the arch is turned tOAvards the fingers, and sends off five branches. (1.) A branch to the muscles and inner edge of the little finger. (2.) Ramus digitalis primus, or the first digital ar- tery, which runs along the space betwixt the two last metacarpal bones, and bifurcates into two branches, one to the outer side of the little finger, and the other to the inner side of the ring finger. (3.) The second digital artery, which bifurcates in a similar manner, and supplies the outer edge of the ring finger, and the inner side of the middle finger. (4.) The third digital artery, which is distributed to the outer edge of the middle finger, and to the inner side of the fore finger. (5.) The ramus pollicis ulnaris is the last branch of the ulnar artery, and is sent to the muscles of the thumb. From the concavity of the arch are sent off the in- terosseous arteries of the palm, small tAvigs Avhich supply the deep seated parts, and perforate betwixt the metacarpal bones to the back of the hand. 248 LONDON DISSECTOR, OR The branches of the ulnar artery, in its course along the fore-arm and Avrist, are the folloAving. (1.) The Recurrent Arteries are tAvo in number. They are sent off from the ulnar artery immediately beloAV the elboAV, sometimes in one common branch, which subdivides. The anterior recurrent runs over the fore part of the inner condyle; the posterior re- current passes over the back part. These arteries inosculate Avith branches of the brachial. (2.) Twigs to the muscles of the fore-arm. (3). A. Dorsalis Carpi is sent off from the ulnar artery a little above the Avrist to the back of the hand. Twigs are also given off to the annular ligament and neighboring parts. (4.) A. Palmaris Profunda is sent off from the ulnar artery, Avhere it descends on the inside of the os pisiforme. It passes into the flesh at the root of the little finger, and inosculates Avith the termination of the deep seated palmar arch of the radial artery. 3. Arteuia lNTERossEA(or Interossea Communis.) This artery is generally sent off from the ulnar. It immediately divides into tAvo branches: (1.) The external or posterior interosseous artery is the smaller branch. It passes through the upper part of the interosseous ligament, to supply the mus- cles on the posterior part of the fore arm. It sends off the A. Recurrens Interossea, Avhich ramifies on the middle of the back part of the elboAV joint. (2.) The internal or anterior interosseous artery descends close upon the middle of the interosseous ligament, betAveen the flexor longus pollicis and flexor profundus perforans, giving tAvigs to the adjacent muscles. Arriving at the upper edge of the pronator quadratus, it perforates betwixt the radius and ulna to the back part of the arm, and spreads its extreme branches on the Avrist and back of the hand. GUIDE TO ANATOMY. 249 VEINS. The cutaneous veins have been already described. The brachial artery is accompanied by two veins, named Venae Comites, or Satellites. These receive branches corresponding to the ramifications of the artery. NERVES. In the dissection of the axilla, Ave demonstrated the great axillary plexus, and traced its first two branches, the external scapular and circumflex nerves. The distribution of the five remaining branches of the plexus must hoav be described. (3.) The External Cutaneous Nerve (Muscu- lo-cutaneus, or Perforans Casserii) is the third branch of the axillary plexus. It passes through the belly of the coraco-brachialis muscle. After its passage, it continues its course obliquely across the arm, betwixt the Biceps flexor cubiti and the Brachialis internus. It gives tAvigs to these muscles, and appears as a su- perficial nerve on the edge of the supinator longus. It runs over the outer condyle, and is distributed to the integuments on the outside of the fore arm, and back of the hand. (4.) The Radial (or Median) Nerve accompanies the brachial artery to the bend of the elbow, and is contained in the same sheath as the artery. In its passage doAvn the arm, it lies before that vessel, but at the elboAV is situated on its inside. It gives off no branches until it has sunk under the aponeurotic ex- pansion of the biceps flexor. Here it distributes many nerves to the muscles of the fore arm, to the pronator teres, flexor carpi radialis, the flexors of the thumb and fingers, and the pronator quadratus. The trunk of the nerve perforates the pronator teres, passes be- twixt the flexor digitorum sublimis and flexor profun- 250 LONDON DISSECTOR, OR dus, and continues its course betwixt these muscles down to the wrist. Near the Avrist it becomes more superficial, lying amongst the tendons of the flexors, and before it descends under the annular ligament, sends a superficial branch to the integuments, and the short muscles of the thumb. The nerve itself passes Avith the flexor tendons of the fingers under the annu- lar ligament of the Avrist, emerges from these tendons, and appears on their outside, near the root of the thumb. It ramifies superficially in the hand, sending off four branches. The first branch passes to the thumb; the second to the side of the fore finger next the thumb; the third divides into two nerves, of Avhich one passes to the inner side of the fore finger; the fourth also subdivides into tAvo, to the inside of the middle finger, and outer side of the ring-finger. These nerves pass before the flexor tendons, but behind the superficial palmar arterial arch, to reach the fingers. (5.) The Ulnar Nerve descends along the inside of the arm. It is at first situated immediately under the integuments, but beloAV the middle of the arm is tied down by the intermuscular ligament Avhich passes to the inner condyle of the humerus. The nerve be- comes here more deeply seated; it runs betAveen the inner condyle in the IioIIoav behind it and the olecra- non, and in the flesh of the brachialis externus or third head of the triceps extensor. After passing the con- dyle, it continues its course betwixt the two heads of the flexor carpi ulnaris, till it reaches the ulnar artery. It then accompanies the ulnar artery, lying on its in- side, and running along the fore arm between the flexor ulnaris and flexor digitorum sublimis. It sends tAvigs to the neighboring muscles, and, Avhen arrived near the Avrist, divides into two branches. 1. The Smaller Branch, called Ramus Posticus, passes under the tendon of the flexor carpi ulnaris, and over the lower end of the ulna, to be distributed to the back GUIDE TO ANATOMY. 251 of the hand, and of the little and ring-fingers. 2. The continued trunk of the nerve passes, on the inside of the ulnar artery, over the annular ligament of the wrist. It passes under the palmar aponeurosis, and divides into three principal branches. The first sup- plies the integuments and muscles on the ulnar edge of the hand, and the inner side of the little finger. The second is distributed to the outer side of the little finger, and inner side of the ring-finger. The third branch passes deep under the long tendons, accompa- nies the deep seated palmar arch, and terminates in the short muscles of the thumb and fore finger, com- municating with the radial nerve. (6.) ThetMuscuLAR or Spiral Nerve (Radial of some anatomists) passes from the axilla behind the os humeri, making a spiral turn round the bone to reach the outside of the arm. It first descends be- tAveen the brachialis externus and short head of the biceps extensor cubiti, accompanying the arteria pro- funda humeri superior, and passing deep into the flesh of the arm. Before it makes this turn, it gives branches to the muscles, also a cutaneous branch, Avhich de- scends on the inside of the arm. From the back part of the arm the great trunk of the nerve is reflected spirally forwards. It is seen emerging betwixt the supinator longus and brachialis internus, seated deep and close to the bone. It descends betwixt these muscles, keeping close to the edge of the supinator longus. Immediately after passing the fold of the arm, it sends off a nerve, which descends, superficial, upon the radial edge of the fore arm, as far as the wrist; and, at this point, the trunk of the muscular nerve divides itself into tAvo branches. The first, a large branch, perforates the supinator brevis, and supplies the extensor muscles of the hand and fingers. The second branch accompanies the supinator longus down the fore arm, and near the wrist turns under the 252 LONDON DISSECTOR, OR tendon of that muscle, over the edge of the radius. It then divides into several branches, Avhich ramify on the back of the wrist, thumb, and fore finger. (7.) The Internal Cutaneous Nerve descends superficial, along the inside of the arm and fore arm. It was described among the cutaneous nerves of the arm. THE METHOD OF INJECTING THE ARTERIES. For the student, who desires to obtain a general vieAV of the arteries, it will be sufficient to inject them from the arch of the aorta. For this purpose an incision is to be made through the integuments along the centre of the sternum throughout its whole length; and the sternum divided longitudinally with a saAv: then lay open the thorax by bending back the tAvo portions of the sternum. An incision is then to be made into the pericardium, and a small opening in the ascending arch of the aorta; into which a pipe is to be inserted and well secured. For ordinary purposes, the injecting material may consist of a strong heated solution of glue and colour- ing matter. When any particular part of the body alone is to be injected, it is necessary to introduce the pipe into the artery which supplies that particular member: thus, if the head is to be injected, a pipe is to be introduced into each common carotid, or, what is preferable, one pipe Avith a bifurcation, and the vertebral arteries are to be secured with a ligature. If an arm, insert the pipe into the axillary artery; and for the lower extrem- ity, fix the pipe in the common iliac artery according to the side to be injected. GUIDE TO ANATOMY. 253 METHOD OF INJECTING THE HEART AND GREAT VESSELS.* If Ave Avish to inject the heart while it is in its natural situation, Ave must sacrifice almost all the parts of the chest to it; for it is a preparation so difficult to make, and so expensive, that Avhen we undertake it, Ave must not hesitate to destroy the other parts. The chest, for this purpose, is to be opened by cutting through the sternum in its length, and by bending back the lateral portions. The abdomen must also be opened. The viscera are to be pulled down, so that a large pipe may be put into the aorta, where it lies between the crura of the diaphragm. Another pipe is to be put into the vena cava ascendens, below the liver. We must then make a dissection on each side of the neck, so as to expose the internal jugular veins, into each of which, a pipe should be put. The caro- tid and vertebral arteries are to be tied; so are the subclavian: or perhaps it will be better to put tight ligatures on the arms, just beloAV the insertion of the pectoralis major. Previous to the injection of the veins, a quantity of warm water should be thrown into them, so that it may pass into the several cavities of the heart. The Avater is then to be pressed out along with the coagula Avhich are generally found in the cavities of the heart. It is principally upon thisjbeing carefully done, that a good injection of the heart depends. When the parts are thoroughly heated, the red injection should be thrown into the ascending aorta. An assistant must now be ready to knead the injection through the valves of the aorta; (but, if possible, a probe should have been passed from the carotid, 22 * Shaw's Manual. 254 LONDON DISSECTOR, OR before it Avas tied, to break doAvn these valves;) when the injection once passes the vahes, it will quickly distend the left ventricle, Avhich must be supported by the assistant,—the pericardium having been previously opened. By a little pressure, the Avax will pass into the left auricle, and, from it, into the pulmonary vein^. It will be Avell to make a small puncture, with a lan- cet, in the apex of the ventricle, to alloAv the escape of any Avater or blood which may be still in this side of the heart. The right side of the heart may be filled with blue or yelloAV injection from the pipes Avhich have been put into the several veins. It Avill be necessary to make a puncture in the apex of the auricle, to permit the exit of a certain quantity of water Avhich will be left in the heart, even though much care has been taken to squeeze it all out previous to the injection. Perhaps the vena azygos may be filled, Avith the other veins; but if it be not, Ave must put a pipe into it, and inject it separate!}'. The thoracic duct may also be injected. If sought for in the abdomen, it will be discovered at the root of the mesenteric vessels, or betAveen the right crus of the diaphragm and the aorta. It may be traced up under the diaphragm, along Avith the aorta, and upon its right side, close to the spine. As it generally lies collapsed and undistinguishable, it may be raised by blowing into some of the glands upon the root of the mesentery, or into those upon the course of the exter- nal iliac vessels, or even into those beloAV Poupart's ligament in the groin. It must be injected Avith a different color from the veins, that it may not be con- founded, in the thorax and at the root of the neck, with their branches. When the heart only is to be injected, we should cut through the vessels going to the upper parts of the body, as they are emerging from the thorax, and remove the heart and lungs, by tearing them, along GUIDE TO ANATOMY. 255 with the trachea and oesophagus, from the spine,__ making first an incision along the spine, to free the intercostal arteries. We may then cut through the aorta and vena cava, below the diaphragm:—a part of the liver should be left attached to the vessels. It is necessary to remove the heart in this manner, that there may be no danger of cutting any of the great vessels. We should press out as much blood as possible from the vessels, and then put a pipe into one of the pul- monary veins, and another into the vena cava superior. Having injected warm Avater by these tubes, to clear the heart of the masses of coagulated blood which are generally found in it after death, Ave must tie the lungs at their roots, and the vena cava inferior, and all the divided arteries, except the aorta, in which a pipe must be put. If Ave throw red injection into the pul- monary vein, it will fill the left auricle, left Arentricle, aorta, and coronary vessels; but during this part of the injection, an assistant ought to hold and compress the aorta immediately after its giving off the coronary arteries, so as to press the injection on in them; but as by this, the injection will be prevented from enter- ing the aorta, it must be filled from the pipe which was inserted into it. The injection escaping by the intercostal arteries, may be stopped by an assistant throAving cold Avater on the wax as it flows from the vessels. The yelloAV injection throAvn in by the vena cava superior, Avill fill the right auricle, ventricle, and pulmonary artery. The dissection required is simply the remoA'ing of the soft parts from the injected ves- sels. 256 LONDON DISSECTOR, OR THE LYMPHATIC, OR ABSORBENT SYSTEM.* The lymphatic system consists of an elaborate set of vessels, and of a number of glands distributed in various parts in the course of these vessels. The lymphatic vessels are tubes Avhose coats are per- fectly pellucid, having a remarkable power of contrac- tion. They are called lymphatics, or Ductus Aauosi, from their transmitting a fluid colorless as Avater. When distended with their fluids, they shoAV that they possess a character distinct from other vessels, being irregularly distended, knotty, presenting sometimes the appearance of a chain of beads, or little irregular vesicles connected together. Everywhere throughout the human body and the viscera, between the extreme branches of the absorbent system and the trunk, gland- ular bodies are interposed. These glands, though differing in form, are generally of an oval shape, vary- ing in size from the tAventieth part of an inch to an inch in diameter. Sometimes they are separate, sometimes accumulated and clustered together. The color of these bodies is various in the several parts of the body; in the outer parts, as in the thigh, axilla, &c, they are redder and stronger; but less so Avithin the abdomen and thorax. In children the lacteal and lymphatic glands are exceedingly numerous, but they shrink Avith advancing old age. The function of these glands seems to be to check, control and measure the flow of the absorbed fluids into the mass of the blood, and perhaps also, to pro- duce some modification in the fluid Avhich is conveyed to them. According to Bell, the lymphatics form a system of absorbents which take up the fluids extra- vasated, or secreted on the surfaces of membranes and cavities. Thus they arise from the pores of the * Bell's Anatomy. GUIDE to anatomy. 257 skin; from the surface of the cavities and viscera, which are covered by the pleura and peritoneum; from the cells of the interstitial and adipose membrane; from all the ducts and cavities of the body. But whether they are the only system of absorbents; Avhether they carry away all the parts of the system, fluids and solids, Avhether they absorb the muscles, membranes, bones, tendons, &c, of Avhich the solid body consists, as Avell as the secreted fluids, are questions Avhich Ave must leave to the examination of physiologists. OF THE COURSE OF THE LYM- PHATICS. The lymphatics, in their course and relation to the fascia and muscles of the extremities, bear a great analogy to the veins; for there are tAvo sets or grand divisions,—the deep lymphatics which accompany the arteries in their branchings among the muscles; and the superficial set Avhich run a course external to the fascia. Of the foot, leg and thigh.—Even in the toes the same distinction of the origins of the lymphatics may be observed, as in the limb. For while a plexus covers the toes superficially, and runs up upon the foot Avith the veins, deeper branches accompany the arteries on the side of the toes. From the toes, dorsum, and edges of the foot, the lymphatics ascend along the leg in four classes. 1. One takes a course from the root of the great toe and inside of the foot, over the tendons of the great toe and tibialis anticus tendon. It then passes on the inside of the tendon of the tibialis anticus muscle, aud before the head of the tibia, following the prin- 22* 258 LONDON DISSECTOR, OR cipal branch of the great saphena vein; and then continues its course, in company with the saphena7 to the inside of the knee. 2. There is at the same time a considerable number of lymphatics, taking their origin from nearly the same place, viz. the inside of the foot, and before the inner ankle; but they take a different course on the leg from the last class; for they pass behind the loAver head of the tibia: they attach themselves to some branch of the saphena vein, and join the former set of vessels on the inside of the knee. From this they ascend superficially above the fascia to the glands of the groin. 3. From the out- side of the foot there ascend several lymphatics; a division of Avhich passes before the outer ankle and across the tibia to join the lymphatics, parasites of the great saphena vein, and here they sometimes form plexuses and contortions; others turn in behind the outer ankle, and join the branches accompanying the lesser saphena vein. The lymphatics Avhich turn round behind the outer ankle pass on the outside of the tendo Achillis; and accompanying the lesser saphena vein, sink into the popliteal holloAV. Here they unite with the lymphatics Avhich have accompanied the several arteries of the leg and foot, and particularly the posterior tibial artery. The deep lymphatics accompany the arteries, as Ave have said; and to inject them we should look for a very large vessel which is coming out from under the plantar aponeurosis to rise behind the inner ankle. Popliteal glands.—The glands of the ham-string cavity are generally three in number, and very small. They receive some of the.lymphatics which pass Avith the posterior tibial artery and Avith the lesser saphena. From the popliteal glands there ascend two large lymphatics, Avhich accompany the popliteal artery and venae comites, and ascend with the latter through the adductor magnus to the fore part of the thigh, GUIDE TO ANATOMY. 259 They run irregularly, or form a kind of net-work round the great vessels. On the fore part of the thigh and still deep, they enter the lower and deep inte?jtm. y»» a.**^. r / - -;/ :-;:j •*:': w %\.:Jr. L *>*■ i'":': •*•>' I'M Ws®!t<& fll :>< ;'"':, yy- !•". sllPf, > n |p> ?■?*■ .■-*■*& .*.,.# ss~j£ *»*i-v ^■i*,*«i.»*i,i:«w.t-Sj« - —jA.