A DIRECTORY FOR THE DISSECTION OF THE HUMAN BODY. BY JOHN CLELAND, M.D., F.R.S., H • J> 7 PROFESSOR OF ANATOMY AND PHYSIOLOGY IN QUEEN'S COLLEGE, GALWAY. PHILADELPHIA: HENRY C. LEA. 1877. COLLINS, PRINTER, 705 Jayne Street. PREFACE. The following pages have not been written with the view of interfering with any works of Anatomi- cal Demonstrations or Systemic Anatomy already in existence, but are intended to supplement such books. The student ought to study the “ subject,” in the dissecting-room, and his books at home; and he ought never to be encouraged in the too common error of looking on his dissections as mere illustra- tions for the statements of the text-book. Yet it is necessary that he should be guided in his dissections, both that he may make them in such a manner as to display the anatomy to the greatest advantage, and that he may recognize the structures by the names by which they are known. To these two purposes of guidance these pages are exclusively devoted; and they differ from the directions which were published in the seventh edition of Quoin’s Anatomy, by the far more complete carrying out of the second purpose, so as to render this a work totally distinct from that referred to. The author’s effort has been, by the omission of all description, to give to the student who seeks to learn, scalpel in hand, a fuller assistance in the practical difficulties which lie is likely to meet with than could be afforded in a work devoted to description either in IV PREFACE. the systemic form of arrangement or that of demon- strations. It is expected of the student that before coming to the dissecting-room he should glance over, each evening, a portion of work in this book, and consult his descriptive manual sufficiently to have an intel- ligent idea of what lie is to exhibit on the subject next day. Taking with him this book to the dis- secting-room, he will with its aid cultivate his manipulative powers and his observation; and on his return home he will recur to his text-book,’and find how far his own observations agree with those O of more experienced men. lie will find it also an invaluable habit, of more than mere anatomical advantage in after life, to devote a short time each day before he quits his dissection to taking written notes of what he sees before him. The extent to which this will relieve the strain on his memory in remembering details will more than repay the trouble. Naturally, the plan of this book is adverse to the evil but too prevalent habit of seeking to substitute for real knowledge of anatomy a mere appearance of knowledge; yet the author ventures to hope that even as an aid in preparing for examinations it may not be useless, but will afford to the student who has carefully dissected the means of easily reviving before his mind the picture of the parts as he has seen them. CONTENTS. PAGE Preface iii The Use of Instruments 13 The Order of Dissection 19 Dissection of the Back and the Upper Limb ... 21 The Back ........ 21 The Spinal Cord ....... 26 The Pectoral Region and Axilla .... 28 The Scapular Region and Shoulder . . . .33 Subcutaneous Structures of Arm and Forearm . 35 Brachial Region ....... 37 Front of the Forearm 39 Front of the Hand . . . . . . .41 Back of the Forearm and Hand .... 44 The Articulations 47 Dissection of tiie Lower Limb 50 The Gluteal Region 50 The Popliteal Space and Back of the Thigh . . 54 The Front of the Thigh 56 The Back of the Leg 64 The Sole of the Foot 67 The Front of the Leg and Dorsum of the Foot . 70 The Knee-joint and Articulations of the Foot . . 73 VI CONTENTS. PAGE Dissection of the Head and Neck 76 Scalp and Back of the Neck 76 Exposure and Removal of the Brain . . .79 Base of Brain and its Vessels 83 Dissection of the Brain from above .... 86 Superficial Dissection of the Neck .... 92 Posterior Triangle ....... 93 Anterior Triangle 94 Deep Dissection of the Root of the Neck . . 98 The Face 99 Temporal and Zygomatic Region .... 103 The Sublingual Region 106 Parts within the Cranium 108 The Orbit 110 Deep Dissections of Nerves and the Internal Ear . 113 Pharynx, Larynx, Tongue, and Nares . . . 117 Vertebral Muscles and Articulations . . . 122 The Eyeball P23 Dissection of the Thorax ....... 128 The Parietes ........ 128 The Pleura and Parts adjacent .... 129 The Pericardium and Heart ..... 133 The Air-Tubes and Interior of the Lungs . . 137 The (Esophagus and other Parts . . . .139 Dissection of the Abdomen and Pelvis .... 141 The Perinaeum ........ 141 The Abdominal Wall ...... 145 The Testicle and its Coverings . . . .154 Peritoneum and Position of Viscera . . .156 The Mesenteric Vessels and the Intestines . . 160 CONTENTS. vii PAGE Dissection of the Abdomen and Pelvis.— Continued. The Coeliac Axis and the Viscera supplied by it . 163 Solar Plexus, Supra-renal Capsules, Kidneys, Aorta, and Vena Cava ....... 167 The Posterior Abdominal Wall .... 170 The Pelvis ........ 172 The Pelvic Viscera 178 The Ligaments of the Pelvis 181 A DIRECTORY FOR TUE DISSECTION OF THE HUMAN BODY. THE USE OF INSTRUMENTS. The instruments with which the student of prac- tical anatomy requires to provide himself are knives, forceps, scissors, hooks, a needle, and a small blow- pipe ; all of which are usually collected in the cases sold for the use of dissectors. In addition, there are various instruments commonly provided in the dissecting-room ; and the principal of these are saws, bone-nippers, chisels, and mallets. The knives or scalpels may vary in length of blade from one and a half to two inches, measuring from the handle to the point. The form of the cutting edge should he rounded towards the ex- tremity, so as to form a curve. This curve is of the utmost use in dissection, especially in the removal of integuments and exposure of muscles ; and in sharp- ening the scalpel care should be taken to preserve its form. A knife without any such rounding, with the cutting edge extending in a straight line to the point, is sometimes found in dissecting cases, and is used by some vivisectors; but to the practical ana- tomist it is of use for only one purpose, namely, for 14 THE USE OF INSTRUMENTS. following branches of nerves; and for this the only requisite is a sharp point, which every scalpel should have. Dissecting forceps should be sufficiently weak in the spring to be used for a length of time without wearying the fingers, and should taper gradually to the points. At the points it is unnecessary for them to be narrower than one-sixteenth an inch, as the smallest structure can be grasped and managed with with forceps of that breadth of point, pro- vided that the teeth or serrations where the points are in apposition are fine and fit into one another with perfect accuracy. Forceps need not be more than four and a half inches in length. The mode of handling the scalpel and forceps is a matter of importance, on which the success and comfort of the dissector greatly depend. The forceps ought always to he held lightly between the forefinger and thumb, their upper part moving over the forefinger. Never, on any account, should this instrument be grasped in the palm of the hand like a fork, neither should it be used to lay hold of firm and bulky structures, which can be better held with the fingers. Small branches of nerves may be seized with it without harm, but neither muscles nor arte- ries should ever be so seized. These structures are seriously damaged by being pinched, and should, therefore, be left untouched, while the connective tissue around them is removed ; or they may be lightly turned aside with the closed forceps, without being held between the teeth of the instrument. The scalpel . ought never to be held with the handle in the palm of the hand and the forefinger 15 THE USE OF INSTRUMENTS. on the back of the blade, like a bistoury, save only in making iucisions. It is usually held like a pen between the forefinger and thumb, while the ex- tremity of the middle fingers furnishes a slight sup- port on which it may be turned so as to direct the cutting edge towards or avray from the dissector at will. The management of the scalpel varies a little, according as it is used for the dissection of large muscles or vessels and nerves. In laying bare a large muscle, such as the superficial muscles of the back, buttock, breast and abdomen, it takes as little time to make the dissection clean and display the structures properly as to bring the muscles into view in a less successful fashion, with the fascia left adherent in patches, and the cutaneous nerves de- stroyed. So far as the display of the muscular fibres is concerned, the following are the directions to be attended to:— 1. Having raised a small portion of the fascia or integuments to be removed, grasp them firmly be- tween the fingers and thumb, and pull on them so as to make them tense. It will then he seen that at the bottom of the furrow between the muscle and opaque fascia there is a stretched film of semitrans- parent connective tissue, which must be all removed along with the fascia. 2. Place, therefore, the point of the scalpel where the film and the muscle touch. Then keeping the point close to the muscle, direct the cutting edge, not exactly in the line of the furrow, but a little turned towards the fascia, and guiding the stroke with the eye in every part of its course, bring the scalpel with a long slow sweep along the furrow; 16 THE USE OF INSTRUMENTS. when the film will be divided by the curved edge of the blade, and start back into the stretched fascia, and rapid progress will be made in denuding the muscle of every particle of its envelope. 3. Attention has to be paid to the direction of the muscular fibres. The usual instruction is to dissect parallel to these. But this is a rule which admits of some exception. Muscles are dissected most easily when placed on the stretch, and it is not always convenient to obtain that advantage; and if they be relaxed, and the dissection be conducted in the line of their fibres, it will often happen that the parallelism of the fibres will be interfered with, and the appearance of the dissection damaged. On this account it is often advisable to keep the furrow of dissection sufficiently oblique to the direction of the muscular fibres to admit of the fascia being pulled in that direction, the fibres thus being rendered tense and kept parallel at the spot under dissection. By paying attention to this rule, the muscles of the abdomen can always be made perfectly clean, with- out the preliminary of inflating the abdominal cavity, which is a rather clumsy and inelegant proceeding. Whatever the direction chosen in relation to the muscular fibres, care should be taken so to regulate the line of dissection that the margin of the undis- sected part shall not be allowed to take the form of a concavity, which prevents the textures from being properly stretched. Iii dissecting bloodvessels it is still more impor- tant than in the dissection of muscles that while the point of the scalpel is brought near to the vessel, so as to make it perfectly clean, the edge shall be THE USE OF INSTRUMENTS. 17 slightly turned away from it, so as to prevent injury to its walls. In tracing nerves, rapid and effective work can often be done by laying hold of the branch to be followed, turning the back of the scalpel towards it, and placing the point close to it, then running the scalpel along its course, so as to divide the connec- tive tissue which binds it down. The flattened extremity of the handle of the scalpel is not without its purpose. It is useful in separating structures which are loosely adherent, and has the advantage that with it the dissector feels his way between structures without running the risk of injuring them by cutting. It may be tli us used in separating fascise and laying bare their adhesions, in separating in a preliminary fashion the contents of large spaces like the axilla from the sur- rounding walls, and in following out the planes of contact of muscles which are either in close associa- tion or happen to be more than usually soft. So also it is often invaluable to the surgeon in the ex- cision of tumors. Scissors should be held with the thumb and ring finger. The manipulations for which they are re- quired in the dissecting-room are few compared with those for which they are used in surgery and in making anatomical preparations. It may be noted that whatever opinions may be held as to the utility of being able to use instruments with the left hand, scissors in the left hand, if in the slightest degree loose or blunt, are always at a disadvantage, because the blades are so made that while the thumb of the right hand, when it pushes on its blade, presses it 18 THE USE OF INSTRUMENTS. against its fellow, the thumb of the left hand, if it be allowed to push, pushes its blade away from its fellow. Hooks and other retentive devices ought to be used as sparingly as possible. They can be avoided very much by attention to the position of the sub- ject, and by learning to keep parts aside by stretch- ing the little fingers of both hands. Hooks are always liable to tear; they keep the parts in an unnatural position, and prevent their being moved freely about. The saw and bone-nippers are instruments which it is most important that the student should learn in the dissecting-room to handle dexterously, since in surgery they are indispensable. Before using the saw, the bone should be laid perfectly bare by di- vision of the periosteum. A preliminary stroke backwards at the part to be divided should be made to help the saw to catch sufficiently, and the suc- ceeding sweeps should be long and light. On no account can a lateral movement be allowed for com- pleting the division; as such an action, however natural when a difficulty is experienced, is not only destructive to the instrument, but liable to leave a jagged fracture of the bone. In the use of bone- nippers, also, all wriggling or lateral movement must be avoided. The bone to be divided should be firmly grasped, and the section made entirely by pressing the handles together. The flat side of the blades should be always turned towards the por- tion of bone to be preserved, as on that side only can it be secured, by proper use of the instrument, that the bones shall exhibit a direct cut unbroken by splintering. THE ORDER OE DISSECTION. The dissection of the body may be conveniently divided into five parts. These are—the upper limb, the lower limb, the head and neck, the thorax, and the abdomen. Two dissectors may be set to work on each of the last three parts ; while, in the case of the limbs, either one or two dissectors may be appointed to each, as may be necessary. If the sub- ject be a male, at least one day should be devoted to the dissection of the perineum before the other dis- sections are commenced, as the surgical anatomy of that region cannot be well appreciated after dissec- tion of the lower limbs, or in other than the lith- otomy position. After tlie dissection of the perinseum in the case of a male, or immediately on being brought into the rooms in the case of a female, the subject should be laid on its face, for the dissection of the hinder part of the scalp and neck, the muscles and other struc- tures of the back, the spinal cord, the buttock, the back of the thigh, and the popliteal space. These dissections may usually be completed in four days, after which the subject may be turned. The upper limbs ought not to be removed from the body until not only the axilla has been fully dissected, but the dissectors of the neck have had an opportunity, in conjunction with the dissectors of the arms, to trace 20 THE ORDER OF DISSECTION. the continuity of the structures which pass from one region into the other. This will usually be accom- plished within four days ; and on the fifth day after turning the subject the dissectors of the thorax may commence. Although it is necessary to fix a stated time as a standard to regulate the turning of the body and the removal of the upper limbs, it will be found practi- cally that, when mutual good feeling and a common spirit of industry exist, students may beneficially ac- commodate one another as regards the periods for these proceedings. And in a school where such good feeling exists, it may be further mentioned, no stu- dent need ever be idle at the times when it unavoid- ably happens that he is unsupplied with a part, as, with a little tact, he can always be learning from the dissections of others, without incommoding the dis- sectors who are at work. It may be further noted, that it is essential to comfort that, when a part is allotted to two dissec- tors, their hours of attendance and period of study should sufficiently correspond. It is therefore desi- rable that, as far as possible, students should arrange among themselves with regard to partners. DISSECTION OF THE BACK AND UPPER LIMB. 1. The Back.—The subject being placed on its face, with the chest and pelvis supported by means of blocks, let an incision be made from the seventh cervical spine down the middle line to the most pro- minent part of the sacrum, another from the acro- mion to the upper end of the mesial incision, and a third along the crest of the ilium to the sacrum. If the subject be fat, it will be found convenient to dissect the integument of the flap thus formed care- fully separate from all the subcutaneous tissue ; but if the subject be lean, it is quite possible to make a thoroughly clean dissection of the muscles at once, and at the same time save all the cutaneous nerves. Extending from the dorsal spines to the spine of the scapula will he found the lower portion of the trapezius muscle, while in the remainder of the region marked out by the cutaneous incisions is the latissi- mus dorsi. In raising the fascia outwards from the middle line, the cutaneous branches of the posterior divisions of the spinal nerves will be detected as they emerge ; and each, as it is found, may be followed through the fascia, or drawn out from it, while the dissection of the muscle is continued. Those from the six upper dorsal nerves appear near the mesial line, being derived from the inner branches of the posterior divisions ; the succeeding cutaneous nerves 22 THE BACK AND UPPER LIMB. in both dorsal and lumbar region are further out, being derived from the outer branches. The upper and lower borders of the latissimus dorsi muscle are to be made distinct from the subjacent parts; the origins from the ilium and lower ribs and from the inferior angle of the scapula being all dissected out. In the interval between the trapezius and latissimus dorsi are to be noted a portion of the rhomboideus major and a portion of the thoracic wall, varying in extent according to the position of the scapula. The trapezius muscle is to be divided by means of a vertical incision about an inch from tlie spines of the vertebrae; and, in association with the dissec- tors of the bead and neck, this incision may be con- tinued through the cervical part of the muscle. On its deep surface are the superficial cervical artery and spinal accessory nerve, which are on no account to be damaged, even by a junior dissector, but to be pre- served, so as to have their continuity from above dis- played by the dissectors of the head and neck. The rhomboideus major and minor muscles are to be freed from fascia,care being taken not to injure their nerve, as it passes beneath their upper border; and when those muscles have been divided by a vertical incision near their vertebral extremity, this nerve (a branch from the fifth cervical), together with the posterior scapular artery, may be seen in its continuity by the dissectors of the head and neck and upper limb together. The peculiar tendinous attachment of the rhomboideus major to the scapula is to be exhibited from the deep side. On the upper border of the scapula the insertions of the levator anguli scapulae and omo-hyoul may be exhibited. THE BACK AND TIPPED LIMB. The latissimus dorsi is to be divided by an incis- ion beginning at its upper border, two inches from the mesial line, and curving downwards and out- wards to the outer border an inch below the last rib. Let the inner part be then raised, so as to exhibit the connection with the lumbar aponeurosis and the origin from the crest of the ilium; and in raising the outer part, let the costal slips of origin be brought into full view, as well as their interdigitation with the external oblique muscle of the abdomen. Also dissect out the posterior border of the external oblique muscle between the last rib and the ilium, and the small portion of the internal oblique left uncovered by the external; and note the continuity of the lumbar aponeurosis with that on which the internal oblique muscle is seen resting, namely, the posterior apo- neurosis of the transversalis abdominis muscle; but leave all these structures undivided. The division of the rhomboidei and latissimus dorsi permits the scapula to be sufficiently drawn away from the tho- racic parietes to bring into view the deep surface of the serratus magnus ; and the lower margin of that muscle can be studied, as well as the relation of its superior margin to the levator anguli scapula?, a mus- cle with which, in some animals, it is quite continu- ous. There is now laid hare an aponeurosis which covers in the deep muscles of the back, and is called the vertebral aponeurosis in the dorsal part of its extent, and more frequently the lumbar in its lower part. Along with this aponeurosis, passing outwards to the upper and lower ribs respectively, are the serratus posticus superior and inferior muscles. These are to THE BACK AND UPPER LIMB. be defined and studied, and, together with the ver- tebral aponeurosis, are then to be divided, when the erector spince muscle will be brought into view. Be- fore beginning the examination of the erector spin®, it is well that the splenius, a fleshy muscle of the neck, extending upwards and outwards from the middle line to the skull and upper cervical transverse processes, should be divided near its mesial attach- ment, i*f it has not been already divided by the dis- sectors of the head and neck, as it ought to be. The eomplexus, the large muscle ascending to the skull beneath the splenius, will thus be laid bare, and, between the splenius and eomplexus, to the outer side of the latter, a small muscle, the trachelo-mastoid, which is the uppermost prolongation of the erector spinae. The erector spince consists of an outer and an inner column, and these will he easily separated, one from the other, with the aid of the vessels and nerves lying between them, especially the external branches of the posterior divisions of the dorsal nerves, with the accompanying branches of the intercostal arte- ries and tributaries of intercostal veins. The outer column being raised, and its fasciculi and tendons carefully dissected, the fibres of its lower part, the ilio-costalis (or sacro-lumbalis) will be seen to be in- serted into the lower ribs; while new fibres, consti- tuting the musculns accessorius arise from the lower, and are inserted into the upper ribs ; and a second continuation, the eervicalis ascendens, arising from the upper ribs, ascends into the neck. The inner column of the erector spinse cannot be dissected out until its inner border is freed by a somewhat artifi- THE BACK AND UPPER LIMB. 25 cial separation of the spinalis dorsi, or the tendinous and muscular fibres arising from lower dorsal and inserted into upper dorsal spines; also some ten- dinous fibres of connection with the lower part of the subjacent semispinalis usually require division. Then the longissimus dorsi, constituting the main part of the inner column of the erector spinae, is to have its insertions, as far as possible, individually dissected out, so as to show that they consist of an outer series of muscular slips attached to ribs and lumbar transverse processes, and an inner series, more tendinous, attached to dorsal transverse and lumbar accessory processes. At the upper part, this muscle will he found prolonged into the neck by the transversalis colli, lying close to the border of the splenius ; while the transversalis colli is in turn prolonged to the skull by the trachelo-mastoid muscle already mentioned. The complexus muscle is to be divided, if this has not already been done by the dissectors of the head and neck. The semispinalis muscle, usually divided into semispinalis dorsi and semispinalis colli, will then be seen with fibres di- rected upwards and inwards over several vertebrae, extending from below the middle of the back up to the axis. Below the lower margin of the semispi- nalis, which is masked by fiat tendons, part of the multijidus spince is visible, a muscle whose fibres like- wise pass upwards and inwards,hut are much shorter, while the muscle as a whole is greatly longer. To show the lower part of the multifidus spinae, the aponeurotic origins of the longissimus dorsi from the lumbar spines and sacrum must be divided, which will likewise permit a more complete dissec- 26 THE BACK AND UPPER LIMB. tion being made of the lowest insertions of that muscle; and to show the upper part of the multi- tidus spinse, ascending as high as the axis, the semi- spinalis must be divided in its whole extent. The deepest fibres of the multifidus spinas, extending between contiguous vertebrae, are called rotatores spina3, and can be seen by cutting down through the more superficial fibres. After the study of these, the levatores costarum, small muscles extending outwards and downwards from the extremities of the dorsal transverse processes, and connected with the fibres of the external intercostal muscles, claim attention. In series with the levatores costarum, in the lumbar region, are the external intertransverse muscles, be- tween succeeding transverse processes; while a set of internal intertransverse muscles will be found pass- ing from accessory to mammillary processes. Typi- cal intertransversales muscles, and also interspinales will be found in the neck. 2. The Spinal Cord.—Senior dissectors may now proceed to exhibit the spinal cord by opening the spinal canal. The laminae of the vertebrae are to he denuded of muscle; the head is to he allowed to hang over the end of the table, and the concavity of the lumbar part of the vertebral column is to be straightened as much as possible, by means of blocks under the abdomen. The laminae of the lumbar and dorsal region are then to be divided partially with the saw, care being taken to direct the saw some- what inwards, and not to divide the transverse pro- cesses instead of opening into the spinal canal. The saw-cuts ought to be continued so as to meet near the lower end of the sacrum ; the divided portion of the THE BACK AXD UPPER LIMB. 27 sacrum should be raised with the chisel, and the series of laminse removed from below upwards in a continuous chain united by the ligcanenta subjlava, by completing their division with the bone-nippers. The sheath of dura mater, with its prolongations round the nerves, can now be cleared with the han- dle of the scalpel, and in some instances (most con- veniently in the lower dorsal region) the nerves may be traced out to show their bifurcation into ante- rior and posterior divisions. The dura mater is to be carefully opened by slitting it down the middle ; and then will be seen the origins of the spinal nerves in pairs by anterior and posterior roots, the liga- menta denticulata binding the cord to the dura mater in the spaces between the successive nerves, and the delicate arachnoid membrane surrounding the spinal cord. The loose transparent sheath which the arach- noid forms round the cauda equina, or collected bun- dle of lumbar and sacral nerves, can be exhibited advantageously with the aid of the blow'pipe, or by introducing the handle of the scalpel beneath it; and when it has been laid open, the cord is seen closely invested with its vascular sheath, the jpia mater, and terminating in the Jilum terminate, a sil- very thread which will be found among the trunks of the cauda equina, and is to be followed to its attachment. The whole sheath of the clura mater, with its contents, may afterwards he removed from the body and spread out on a table for further examination. Lastly, if the subject be quite fresh, sections may be made through the cord at different levels; or, if the subject has been long preserved in salt, an inter- 28 THE BACK AND UPPER LIMB. esting result may be obtained by running water on the cut upper end of the cord, and thus removing its proper texture, while the pia mater will be left empty, but with the firm roots of the nerves at- tached to it in series in front and behind. Within the spinal canal the rich plexus of veins should be noted. 3. The Pectoral Region and Axilla.—The subject having been turned on its back, and the shoulders supported by a block, so as to throw the chest forwards, a mesial incision is to be made along the sternum; from the upper end of this another is to he carried to the outer end of the clavicle, and thence along the arm to the fold of the axilla; while a third is to he directed outwards from the lower end of the sternum, as far as the border of the latis- simus dorsi. If the subject be a female, a circular incision with a radius of an inch is to be described round the mammilla, so as to leave that part intact when the rest of the integument is raised. The extent of the mamma is to be exhibited by removal of the sur- rounding adipose tissue; and on raising the circular portion of integument till it is left attached only at the extremity of the nipple, the galactophorous ducts, each with its ampulla, or dilatation, beneath the cutaneous areola, will be seen; and in young adults they may be traced inwards, and their orifices may be displayed by passing bristles through them. On subsequent removal of the fascia from the pectoralis major muscle beneath, the important connections of the mamma with it will be seen; and, lastly, a ver- THE BACK AND UPPER LIMB. 29 tical incision should be made through the gland in such a manner as to bisect the nipple. Beneath the subcutaneous fascia are the jiectoralis major muscle and the forepart of the deltoid, the pectoralis extending from the chest and inner end of the clavicle, and the deltoid from the outer part of the clavicle and from the shoulder, while between the two is the cephalic vein. In removing the fascia from these muscles, the following cutaneous nerves may be preserved: the anterior cutaneous branches of the six upper intercostcd nerves emerging with cor- responding branches of bloodvessels from the fore- part of the intercostal spaces, the descending cutane- ous branches of the cervical plexus crossing over the clavicle, and the anterior twigs of the lateral cuta- neous branches of the third and succeeding intercostal nerves, turning inwards over the axillary border of the great pectoral muscle. The lower part of the fibres of theplatysma myoides, the cutaneous muscle of the neck, will also be seen crossing the clavicle. After tlie pectoralis major muscle has been thor- oughly exposed, its clavicular attachment should be divided, and the divided portion of the muscle should be reflected, care being taken of the cephalic vein as it dips down to join the axillary, and of the external anterior thoracic nerve which comes forwards on the upper side of the axillary artery to supply the muscle. On removal of some adipose tissue, the subclavicular space will now be seen, bounded ex- ternally by the upper part of the pectoralis minor, and in it the costo-coracoid membrane attached to the clavicle above and continuous below with the sheath of the axillary vessels; also the superior thoracic and 30 THE BACK AND UPPER LIMB. acromio-thoracic arteries, with the humeral branch of the latter lying along the axillary vein. The sheath is to be divided, and the axillary vessels brought into view; also the costo-coracoid membrane is to be re- moved to expose the subclavius muscle. The axillary space is now to be dissected from below, the sternal part of the great pectoral muscle remaining intact. To enable the arm to be extended at right angles to the trunk, a board may be slipped beneath the shoulder. With a view to the study of the connections of the axillary fascia, the integument should be removed separately: the fascia of the pec- toralis major should then be reflected from the border and deepsurfaceof that muscle till its continuity with the investment of the pectoralis minor is seen; then the fascia concealing the latissimus dorsi should be divided and traced forwards till the continuity of the axillary fascia with the pectoral fascia, the axillary sheath of the vessels and the aponeurosis of the arm is seen. The adipose and other contents of the space are to be separated with the help of the handle of the scalpel as much as possible from the walls of the axilla. At this stage must be dissected the intercosto- humeral nerve, which is the lateral cutaneous branch of the second intercostal, and crosses the axilla, pierc- ing its fascia, to be distributed on the inner and back part of the arm. Also, at this time, the lateral cuta- neous offsets of the succeeding intercostal nerves may be exhibited as they pierce the serratus magnus and divide into an anterior and a posterior branch. The lymphatic glands of the axilla should now be cleared from the tissue in which they are imbedded, and the remaining adipose tissue and fascia within reach THE BACK AND UPPER LIMB. should be removed. The long thoracic artery will be seen towards the front of the space, and the sub- scapular artery at the back (sometimes sending a branch forwards on the thoracic wall); while, in the deep part of the middle of the space, distributed to the glands, is the cdar thoracic. The lorig subscapular nerve lying close to the subscapular artery passes down to supply the latissimus dorsi; and the so- called external respiratory nerve of Bell (from the fifth and sixth cervical trunks) descends from the neck, behind the great vessels and nerves, on the surface of the serratus magnus, to which it is distributed. These structures being exhibited and preserved, let the axillary vessels and brachial plexus of nerves where they emerge from the axilla be brought thoroughly into viewr; and also the origins of the anterior and posterior circumflex arteries given off immediately below the subscapular. The remainder of the pectoralis major is to he divided about three inches from its insertion, and as the pectoralis minor is brought into view, some twigs of the internal anterior thoracic nerve may be seen piercing it and passing on to the pectoralis major. There are likewise laid bare by the reflection of the pectoralis major the origin of the coraco-brachialis muscle and short head of the biceps together from the coracoid process, and further out, in the bicipital groove of the humerus, the round tendon of the long head of the biceps. The pectoralis minor having been cleaned and studied is to he divided, and the internal anterior thoracic nerve is to be found enter- ing its deep surface, and is to be traced back to its emergence on the under side of the axillary artery. 32 THE BACK AND UPPER LIMB. The whole course of the axillary vessels can now be cleared, and their relations to the trunks of the brachial plexus, above, underneath and beyond the pectoralis minor, studied. The whole of the axillary branches of artery already individually mentioned can be seen in series, and the three great cords of the brachial plexus giving off their branches as follows: the external cord (outside the vessels) giving off the musculo-cutaneous,the external anterior thoracic and the outer head of the median; the inner cord (inside the vessels) giving off the inner head of the median nerve, the ulnar, the internal cutaneous, the nerve of Wrisberg, and the internal anterior thoracic; the posterior cord (behind the vessels) giving off the musculo-spiral, three subscapular, and the circum- flex. The long subscapular nerve has already been dissected out, the second is now seen passing to the subscapular muscle and the teres major, while the short subscapndar, situated deeper in the axilla, ends altogether in the subscapular muscle. On the fourth day, after the turning of the sub- ject, the sterno-clavicular articulation can be studied by dissecting out the inter-clavicular and costo-clavi- cular ligaments, and dividing the anterior ligament sufficiently to expose the interior of the joint and the inter-articular Jibro-cartilage, then moving the limb so as to exhibit the actions of the articulation, while the posterior ligament, which is closely connected with the costo-coracoid, remains untouched. The clavicle may then be sawn across, or, in the event of the dissection of the neck being sufficiently ad- vanced, and it being deemed advisable, it may be disarticulated from the sternum. The continuity of THE BACK AND UPPER LIMB. 33 all vessels and nerves passing from the neck to the limb, including the supra-scapular artery and nerve, is now to be studied, and they are then to be divided, and the serratus magnus is to be brought more fully into view by pulling the limb outwards from the body. The three parts of this muscle, with the direc- tions of their fibres, can then be studied, and the separation of the limb from the body may be com- pleted by dividing the serratus magnus, levator anguli scapulae, and omo-hyoid muscles. 4. The Scapular Region and Shoulder.—The scapular attachments of all the muscles which have been divided in separating the limb from the body should be carefully dissected out and trimmed, if this have not been fully done at an earlier stage. So also the dissection of the axillary vessels and axillary part of the brachial plexus should be completed, and the short subscapular nerve, ending in the subscajmhtris muscle, will probably be brought into view for the first time, and the subscapularis muscle should be cleaned. The insertion of the pectoralis major should be carefully dissected, so as to display the manner in which the lower fibres of the muscle turn in under the upper part, and the tendon is folded, so as to form a hem to the anterior border of the axilla. The latissimus dorsi should likewise be traced up to its insertion; the bursa between its tendon and that of the teres major should be exhibited, and the teres major should be cleaned, and the relation between those two muscles studied. A block should now be placed under the axillary border of the scapula; the integuments should be dissected from the great muscle of the shoulder, the deltoid muscle, care being 34 THE BACK AND UPPER LIMB. taken of the cutaneous branches of the circumflex nerve curving round its hinder border; and the manner in which the aponeurosis covering the infra- spinatus muscle splits at the posterior border of the deltoid, so as to pass partly on to its surface and partly beneath it, should be noted. When the del- toid muscle has been properly studied, so far as it can be seen on its outer aspect, it should be divided near its origin; the large bursa beneath it, extend- ing between the acromion and the shoulder-joint, should be inspected, and the posterior circumflex artery and the circumflex nerve should be displayed on the deep surface of the deltoid, and the extent of the insertion of the muscle made distinct. At this stage also the attachment of the long head of the triceps muscle of the arm into the axillary border of the scapula should be fully displayed, and the man- ner should be noticed in which it subdivides the in- terval between the scapula and teres major, leaving a quadrangular space above, through which the cir- cumflex nerve and posterior circumflex artery pass backwards, and a triangular space below, through which the dorsal branch of the subscapular artery takes its course. The investing aponeurosis is to be removed from the infraspinatus muscle, and that muscle is to be distinguished from the teres minor, which lies on its axillary border. The nerve to the teres minor is to be traced from the circumflex, and its little gangliform swelling noted; and then the teres major and minor muscles may be studied to- gether, so as to show their antagonistic actions in rotating the humerus when elevated. The supraspi- natus muscle, occupying the fossa supraspinata, is to THE BACK AND UPPER LIMB. 35 be dissected out in its course beneath the acromion, which, however, does not interfere with its exposure. It is then to be raised from its origin, and the supra- scapular nerve and artery are to be followed beneath it, as, after supplying it, they pass behind the neck of the scapula into the infraspinatus muscle. The infraspinatus is to be likewise raised, and the dorsal branch of the subscapular artery followed. 5. Subcutaneous Structures of Arm and Fore- arm. As a general rule, it is advisable to make a longitudinal incision down the front of the limb, and to remove the integument at once as far as the wrist, so as to get a continuous view of the subcutaneous veins and nerves throughout this region; but some- times the imperfect preservation of the part, or other reasons, may suggest the expediency of leaving the forearm untouched until after the brachial dissection is completed. When the skin as far as the wrist has been reflected, it will be well to trace the inter- costo-liumeral nerve to its distribution, if this be not already done; then to follow the nerve of Wrisberg (lesser internal cutaneous) from its origin from the in- ternal brachial cord to its termination between the olecranon and inner condyle of the humerus ; also to trace the internal-cutaneous branch of the musculo- spiral nerve from its origin near the axilla to its dis- tribution on the inner side of the arm. The subcutaneous fat should then be removed with care in a direction from above downwards, so that the other cutaneous nerves may he detected and preserved as they escape from the aponeurosis of the limb. On the inner side of the arm, about the middle, the internal cutaneous nerve pierces the aponeurosis, as a 36 THE BACK AND UPPER LIMB. single trunk or after division into its two branches, anterior and 'posterior. On the outer side, in the line of the external intermuscular septum, appear the two external cutaneous branches of the musculo-spiral nerve. In front, at the bend of the elbow, the musculo-cuta- neous or external cutaneous nerve appears; at the back, over the olecranon, is a synovial bursa which some- times becomes inflamed; and on the inner side there is usually a small lymphatic gland. In the forearm, on the outer side, in front, will be found the distri- bution of the anterior branch of the musculo-cutaneous, and in the upper part the terminal twigs of the upper external cutaneous branch of the musculo-spiral nerve, while, behind, the posterior branch of the musculo- cutaneous extends as far as the wrist, reinforced by the inferior external cutaneous branch of the musculo- spiral. On the inner side, the internal cutaneous will be followed to the wrist, its anterior branch in front, and its posterior branch on the dorsal aspect, the an- terior branch sometimes joined by a small branch from the ulnar. 1STear the wrist, the dorsal branch of the ulnar nerve, for the inner fingers, will be found emerging from the aponeurosis on the inner side, and the radial nerve destined for the outer fingers, emerg- ing on the outer side; while in front care must be taken not to injure the palmar branch of the median nerve, just above the annular ligament. The cuta- neous veins of the arm and forearm must also be carefully studied. Those on the outer and inner sides of the forearm, into which the veins from the dorsal surface pour their contents, are collected near the bend of the elbow into a radial and an ulnar vein, while in front there ascends another smaller THE BACK AND UPPER LIMB. 37 trunk, the media,n, which below the bend of the elbow will be found very constantly joined by a deep median branch, and immediately thereafter divides into me- dian-cephalic and median-basilic, which, joining the radial and ulnar respectively, form the cephalic and basilic veins ascending on the outer and inner side of the arm. 6. Brachial Region.—The aponeurosis having been removed from the front of the arm, the biceps muscle extending from scapula to forearm may he first dissected out. On its inner side above will be found the coraco-brachialis descending with the short head of the biceps from the coracoid process, and pierced by the musculo-cutcineous nerve. This may be at once followed down, and its muscular branches may be exhibited; namely, that to the coraco-bra- chialis, given oft' as it pierces it, and branches to the biceps and bracliialis anticus as it passes down be- tween them to become superficial on the outer side of the former. The aponeurotic part of the insertion {semilunar fascia) of the biceps, extending inwards between the brachial artery and median-basilic vein, and important in connection with venesection, is to be noted. The brachial artery with the median nerve in front of it, and with its venae comites joined by the basilic, and ending in the axillary vein may now be dissected out. At its commencement will be seen the superior profunda branch, accompanying the musculo-spiral nerve as it passes backwards into the musculo-spiral groove; a little lower down is the inferior profunda branch accompanying the ulnar nerve down to the interval between the olecranon and inner condyle of the humerus, where both become 38 THE BACK AND UPPER LIMB. concealed by the flexor carpi ulnaris muscle; and a little above the elbow the anastomotic branch will be seen extending inwards on the bracliialis anticus. Also various muscular twigs are to be noted, and the nutrient branch, entering the humerus near the level of the insertion of the coraco-brachialis.1 The apo- neurosis is to be removed from the back of the arm, and the single muscle occupying that region, the triceps extensor brachialis, is to be dissected. Its long and its outer head of origin are to be raised from the musculo-spiral groove by the separation of their fibres from those continuous with the inner or short head, and a good dissector can manage this without division of the muscle, so as to lay bare the whole course of the musculo-spiral groove, and show the complete distinctness of the outer and long heads from the deep part of the muscle. If the aponeurosis be now removed from a small portion of the back 1 The artery of the upper limb is so subject to variations that it is right to attract the dissector’s attention to those which lie is most liable to meet with. The median nerve may be behind the vessel, and the subscapular, the two circumflex, and the two pro- funda arteries may all arise together from a common trunk. Fre- quently the brachial artery divides at a high level (or the division may even take place in the axilla) ; and the artery prematurely separated may be the radial, or the usually situated trunk may furnish the radial and the interosseous of the forearm, while the abnormal high branch is termed ulnar; or lastly, the interosseous alone may be given off high. Also a vas aberrans may arise above from the otherwise normal trunk and join one of the arteries of the forearm below. The explanation of high division is to be found in the fact (observed by the writer) that vasa aberrantia exist in the young foetus. When the normal trunk is obstructed, a vas aberrans expands; but the subject requires further investi- gation. THE BACK AND UPPER LIMB. 39 of the forearm, between the olecranon and external condyle of the humerus, the anconeus muscle will be laid bare, and its continuity with the horizontal lowest fibres of the triceps demonstrated. Its nerve, given off from the musculo-spiral high up in the musculo-spiral groove, should also be traced down to it through the deep fibres of the triceps. The :musculo-spiral nerve should then be traced forwards through the external intermuscular septum, and fol- lowed down between the brachialis anticus in- ternally and the origins of the supinator longus and extensor carpi radialis longior muscles on its outer side; its branches to these two muscles and its twig to the brachialis anticus beneath the biceps should be made out; and it may be at once traced down to its division on the upper part of the radius into radial nerve, continuing downwards to become cutaneous, and the posterior interosseous which is seen piercing the supinator brevis muscle to reach the back of the forearm. The remainder of the space in front of the elbow, bounded interiorly and internally by the pro- nator radii teres, should next be brought fully into view, with the median nerve passing down through it internal to the bifurcation of the brachial artery, the ulnar artery crossing beneath it and separated from it below by the deep head of origin of the pro- nator teres, and the radial artery inclining outwards towards the radial nerve. 7. Front of the Forearm. —On removal of the aponeurosis of the limb from this region there comes into view on the outside the remainder of the su- pinator longus muscle with the radial nerve and artery internal to it, the artery giving off above, 40 THE BACK AND UPPER LIMB. under cover of the muscle, the radial .recurrent, which anastomoses with the superior profunda, and, at the wrist, the superficial volar to the hand and a small anterior carpal branch. Also, occupying the rest of the forearm, is seen a group of five super- ficial flexor muscles descending from the internal condyle of the humerus. Of these the outermost is the pronator radii teres, previously brought partially into view: its insertion on the outer side of the radius, as well as the deep ulnar head of origin which separates the median nerve from the ulnar artery beneath it, can now be fully studied. In- ternal to this muscle are found in series from with- out inwards, the flexor carpi radicdis, the palmaris longus (which, however, is often absent), the flexor sublimis digitorum, and the flexor carpi ulnaris. Of these the flexor sublimis is the largest, and it will be seen to have an additional origin from the radius, along by the lower border of the pronator teres: also the disposition of its four tendons where they pass beneath the anterior annular ligament at the wrist demands attention. On raising this muscle for its complete dissection, without dividing it, there may be obtained a complete view of the median nerve from the elbow to the wrist, giving branches to the superficial flexors, with the exception of the flexor carpi ulnaris; and also in the upper part of the forearm the origin of its deep branch, the an- terior mterosseous, will be seen. The course of the ulnar artery will now also be completely exhibited; giving off at the upper part the anterior and posterior ulnar recurrent, passing respectively in front of and behind the inner condyle of the humerus to ana- THE BACK AND UPPER LIMB. 41 stomose with the anastomotic and inferior profunda, and also the interosseous artery, dividing into an- terior and posterior interosseous, the latter piercing between the bones to the back of the forearm. At the wrist will be seen the origins of the anterior and posterior carpal branches of the ulnar artery. In contact with the artery on its inner side in the lower half of the forearm is the ulnar nerve, and this is to be traced up to the part already exposed behind the inner condyle of the humerus; and its branches to the flexor carpi ulnaris and inner half of the flexor profundus digitorum should be seen. The deep muscles can now be displayed without division of the superficial group, or by dividing, at most, the radial origin of the flexor sublimis digi- torum. Two of them are longitudinal, namely, the flexor longus pollicis to the outside, and the flexor pro- fundus digitorum more internally; and on turning these aside, one from the other, there will be seen in the lower part of the forearm the remaining deep muscle, the pronator quadratics, with its fibres placed transversely. Descending to the pronator quadratus, on the interosseous membrane, can be seen the an- terior interosseous nerve and artery, whose origins have been already noted. 8. The Front of the Hand.—An incision may be made down the centre of the palm and crossed by another at the roots of the fingers, and the fingers and thumb may be laid open by means of an incision down the middle of each. The 'palmar fascia is then to be exposed, and the firmness with which the skin is bound down to it will be noted. The central or principal part will be seen to expand towards the 42 THE BACK AND UPPER LIMB. fingers; and at the further end transverse fibres will he observed binding its slips together. A thinner part will he found dying away on each side over the region of the thumb and little finger; and also on the inner side of the hand. Care must be taken to preserve the transverse fibres of the palmaris brevis muscle, extending inwards from the palmar fascia to the skin. Continuing the dissection down to the fingers, a view will be obtained of the sheaths of the flexor tendons, consisting of almost cartila- ginously strong transverse fibres opposite the first and second phalanges, and of little more than some delicate crucial bands over the joints. Also the anterior digital nerves and arteries running down the sides of the fingers, after escaping from underneath the palmar fascia, may be at once dissected out; and note should be taken of the Pacinian bodies coming off* like minute bunches of grapes from the nerves, and usually capable of being easily distinguished from the fat in which they are embedded. On reflection of the palmar aponeurosis the super- ficial palmar arch of artery and the median and ulnar nerves will he laid bare. The superficial palmar arch will be found to he continuous with the ulnar artery, and to be completed by anastomosis with the superficial volar branch of the radial, and to give off at its commencement a deep branch, which sinks down between the muscles of the little finger, and afterwards the digital branches for the three inner fingers and ulnar side of the forefinger; while the thumb and radial side of the forefinger are supplied from the radial artery. Both median and ulnar nerves will be seen giving off muscular branches 43 THE BACK AND UPPER LIMB. soon after entering the palm; and care must be taken not to divide these before following the nerves to the digits. The little finger and inner side of the ring finger are supplied by the ulnar nerve, and the rest by the median. It may be here shortly stated that the muscular branches of the median nerve supply the two outer lumbricales muscles and the short muscles of the thumb, with the exception of the adductor and inner head of the flexor brevis ; while the ulnar nerve supplies branches to the muscles of the little finger, and sends down a deep branch along with the deep branch of the ulnar artery, to supply the two inner lumbricales, the interossei, the adductor pollicis, and the inner half of the flexor brevis pollicis. The anterior annular ligament of the wrist should now he examined and divided ; the bursae lubricating the tendons beneath it should be observed, and the tendons should be separated and followed to their insertions. The flexor carpi radialis will be traced into a special fibrous compartment, and on to its insertion into the second metacarpal bone. In raising the common flexors, the origins of the lum- bricalcs from the flexor profundus will be brought into view, and their nerves must at this stage be traced into them; but their insertions cannot be fully seen till the extensor digitorum is dissected. The sheaths on the fingers are to be cut open, and the deposition of the tendons, with the slender vincula accessoria attached to their deep surface, is to be seen, as well as the extent of their tliecse up into the palm. The short muscles of the thumb and little finger 44 THE BACK AND UPPER LIMB. must next be examined. The abductor pollicis is recognized by its parallel fibres and free edges as it passes down to the outer side of the first phalanx. The opponens pollicis is distinguished from thc flexor brevis, which covers it, by its fibres being inserted into the metacarpal bone along its length ; while, on the inner side of the flexor brevis, the adductor polli- cis is 'sufficiently distinct, as it comes from the third metacarpal bone; and behind it is seen the abductor indicis or first dorsal interosseous muscle. The abduc- tor and flexor minimi digiti are separated by the deep branches of the ulnar nerve and artery, and the opponens minimi digiti is distinguished by being in- serted into the length of the metacarpal bone. These muscles having been seen, the deep branches of artery and nerve referred to are to be followed, and the artery will be a guide to the deep palmar arch (from the radial), which it completes. The recurrent, supe- rior perforating and palmar interosseous branches of the deep palmar arch are to be dissected, as also the princeps pollicis and radial branch of the index finger given off from the radial artery as it enters the hand. 9. The Back of the Forearm and Hand.—The remaining integuments being removed, the super- ficial veins and the distribution of the radial and ulnar nerves on the back of the hand will be followed out; the radial supplying two fingers and a half completely, and the ulnar supplying the little finger and ulnar side of the ring finger, while the adjacent sides of the middle and ring fingers are usually sup- plied by a trunk formed partly from both nerves. The aponeurosis is to be afterwards removed from THE BACK AND UPPER LIMB. 45 the back of the forearm, care being taken to preserve at the hack of the wrist a thickened portion, the 'posterior annular ligament, which is fastened to the lower ends of the radius and ulna by septa, which form a series of compartments, through which the extensor tendons pass. A series of seven muscles will he observed to radiate from the outer condyle of the humerus, the outermost of which is the supinator longus, already dissected; while internal to it, in series from without inwards, lie the extensores carpi radiales longior et brevior, the extensor communis digi- torum, the extensor minimi digiti, the extensor carpi ulnar is, and, on the inner and upper border of this, the anconeus, already dissected. The extensor minimi digiti will be distinguished by its passing through a separate compartment of the annular ligament, between the radius and ulna. On the back of the hand the processes given off from the tendon of the ring finger to the tendons of the middle and little finger will be observed, as also the thin transverse aponeurotic hand connecting the tendons of the middle and forefinger. The tendons of the extensor communis are to he followed on the fingers, so as to show the insertion of their middle fibres into the second phalanx, and their lateral fibres into the third phalanx; and on clearing the expansions on the hack of the first phalanges, and resuming the dissection of the lumbricales, it will be demonstrated that those muscles terminate in the extensor expansions, while other fibres will also he found coming from the dorsal interossei to join the expansions. On raising the extensor communis digitorum, and turning it somewhat inwards, without dividing it, 46 THE BACK AND UPPER LIMB. the five deep muscles will be brought into view. Four of them emerge from beneath that muscle, namely, in series from below upwards, the extensor indicis passing through the sheath with the common extensor, the extensor secundi internodii pollicis pass- ing through a sheath by itself, and the extensors primi internodii et ossis metacarpi pollicis passing through a single compartment of the annular liga- ment ; and above all these is the supinator brevis muscle in the upper part of the forearm. Piercing the supinator brevis, the posterior interosseous nerve will be found dividing into branches to all the mus- cles of the back of the forearm which it has not already supplied; and, appearing beneath the same muscle, the posterior interosseous artery will be found, and may be traced to its ramifications. Also, the termination of the anterior interosseous artery, after piercing the interosseous membrane, is to be seen on the back of the wrist. The radial artery is to be dissected out in the part of its course where it winds round beneath the extensor tendons of the thumb to reach the interval between the heads of origin of the abductor indicis and pass forwards to end in the deep palmar arch. The branches given oft* by the radial artery in this part of its course are also to be sought out, namely, its metacarpal branch, and the smaller posterior carped branch, and dorsal arteries of the thumb and index finger. The transverse ligament binding the heads of the four inner metacarpal bones on their palmar aspect may now be dissected and divided, and the interossei muscles may be studied : namely, the three palmar interossei, arising each from the metacarpal bone of THE BACK AND UPPER LIMB. 47 the finger to which it belongs, and inserted respec- tively into the ulnar side of the forefinger and the radial side of the ring and little fingers; and the four dorsal interossei, arising each from two metacar- pal bones, one of them the abductor indicis, already noticed, while two others are inserted one on each side of the middle finger, and the fourth is inserted on the ulnar side of the ring finger. 10. The Articulations.—Before proceeding to this dissection, a careful revisal should be made of all the parts which have been dissected and pre- served; the various muscles may be divided, and the student may exercise himself in recognizing the cut portions by means of their attachments. The joints are then to be examined in series from above down- wards. In the coraco-clavicular articulation the conoid and trapezoid ligaments are to be distinguished, and the bursa between them is to be noted, as also the positions in which the ligaments are respectively tightened. The acromio-clavicular articulation should then be dissected, and studied in connection with the coraco-clavicular ligaments. Two ligaments passing across different parts of the scapula next demand attention, viz. the suprascapular ligament, above the notch for the nerve of the same name, and the coraco-acromial or deltoid ligament; and the dis- sector may then proceed to clear away the muscles which surround the shoulder-joint. On reflecting the subscapular muscle, it will be seen to differ from the others supporting the joint in that it pierces the capsule instead of adhering to it, and a bursa will be found extending underneath the muscle, from the 48 THE BACK AND UPPER LIMB. cavity of the joint where so pierced. An accessory, or coraco-humeral band will be found strengthening the upper part of the capsule; and when the capsule has been studied the opening beneath the subscapu- lar muscle may be enlarged to display the interior of the joint with the long head of the biceps muscle traversing it, and the glenoid ligament surrounding the scapular surface, and to allow the movements of the surfaces to be seen. At the elbow, the surface of the joint having been fully exposed, the orbicular ligament, binding the radius to the ulna, and the external and internal late- ral ligament, are to be dissected out; and then the membranes in front and behind, which are called anterior and posterior ligament, but have no liga- mentous action, may be in great part removed, so as to permit of the relations of the surfaces of the bones in different positions of the limb being observed. The interosseous membrane and oblique ligament be- tween the shafts of the ulna and radius may next be examined, and then the region of the wrist may be dissected. Here, also, after observation of the out- side of the joints, the ligamentous bands should be dissected out, and openings through the weaker parts of the capsules should be made, sufficient to allow the movements of surfaces to be seen. Thus, the lower radio-ulnar articulation may be opened in front, so as to exhibit the upper surface of the trian- gular cartilage; and openings in front and behind may be made to display the movements of the radius on the first row of carpal bones, and the movements of one row on the other; and, until these examina- tions have been made and the movability of the meta- THE BACK AND UPPER LIMB. 49 carpal bones at their carpal ends has been studied, the lateral ligaments and as many other strong bands as possible should be left intact. The articulation of the thumb with the trapezium should next be examined, and the articulation of the metacarpal bones with the phalanges,1 and of the phalanges one with another; and afterwards the carpal joints should be thoroughly laid open to show the inter- osseous ligaments between them and between the carpal ends of the metacarpal bones, and to bring into view the extent of the synovial cavities. 1 The metacarpo-phalangeal articulations of the four inner digits deserve particular attention, as they exhibit a well-marked and unique arrangement which is commonly overlooked. When the student has dissected out the anterior ligament, he will find that its fibres are arched, and act as a sling for the head of the meta- carpal bone, preventing over-extension; and on bending the joints he will find that the lateral ligaments are put on the stretch by their metacarpal attachments being situated far back; and that thus it happens that the fingers have one position in flexion, while, in extension, the looseness of the lateral ligaments permits sepa- ration and approximation. DISSECTION OF THE LOWER LIMB. 1. The Gluteal Region.—The subject being placed on its face, with blocks under the pelvis, an incision is to be made from the middle line out- wards, along the crest of the ilium; and another, commencing at the same point, is to be carried down to the lower end of the sacrum, then outwards, so as to reach a point about six inches below the great trochanter. The largest cutaneous nerves of this region cross down over the crest of the ilium and will be found the more easily by attending to the circumstance that while the adipose tissue on the back is continued down in an uninterrupted sheet over the gluteus maximus, a distinct deeper layer of fat tills up the hollow between the crest of the ilium and the upper border of that muscle; and it is be- tween the two layers that the nerves descend. The nerves descending over the crest of the ilium are: Two or three branches from posterior divisions of lumbar nerves, and in front of them the lateral branches of the last dorsal and ilio-hypogastric nerves. Still further forwards, below the anterior superior spine of the ilium, may be found the pos- terior branch of the external cutaneous nerve of the thigh, which, however, does not encroach much on the gluteal region ; turning upwards round the in- ferior border of the gluteus maximus muscle, are THE LOWER LIMB. 51 some branches of the small sciatic nerve ; and pierc- ing the gluteus maximus, close to its origin, are some small branches from the posterior divisions of the upper sacral nerves. The adipose tissue is now to be removed, so as to lay bare the strong fascia lata (aponeurosis of the lower limb), covering the anterior part of the gluteus medius muscle, between the crest of the ilium and the upper border of the gluteus maximus ; and when that border is reached, extending from the back part of the ilium to a point a little above the great tro- chanter, it will be observed that the fascia splits into a deep and a superficial part, so as to invest the muscle. This circumstance having been noted, it will be unnecessary, except for a special demonstra- tion of the fascia, to leave the layer covering the muscle, and the muscular fibres may be at once cut down on, and the surface of the muscle displayed. The inferior border of the gluteus maximus is to be thoroughly dissected out in its whole extent as far as its insertion into the femur, and the synovial bursa usually present between it and the tuberosity of the ischium should be sought for. The muscle is then to be divided close to its attachment to the ilium, sacrum and coccyx ; and as it is reflected there will come into view the branches of artery and nerve which enter it, namely, the superficial branch of the gluteal artery, and lower down the sciatic artery, a separate branch of nerve, in most instances, from the sacral plexus to the upper part of the muscle, and branches from the small sciatic nerve to the lower part. These branches of vessels and nerves must be divided to allow of the complete 52 THE LOWER LIMB. reflection of the muscle, and then the large bursa over the great trochanter will be brought into view, and the dissector will be able to make out clearly the insertion of the upper part of the gluteus maxi- mus into the fascia lata, and of the lower part into the femur. The fascia lata is to be removed from the upper part of the gluteus medius, and the parts exposed by the reflection of the gluteus maximus are to be cleaned, namely—in order from above downwards, the remainder of the gluteus medius, and, emerging from the great sacro-sciatic foramen, the trunks of the gluteal artery and vein, the pyriformis muscle, the sciatic artery and vein, the great sciatic nerve (with its little artery accompanying it), and the small sciatic nerve ; then the spine of the ischium, with the small sacro-sciatic ligament extending in- wards from it, and the pudic vessels and nerve and the nerve to the obturator interims passing over it into the pelvis ; and emerging from the small sacro- sciatic foramen the obturator interims tendon, with the gemellus superior and inferior above and below it. Still further down is the quadratus femoris, extend- ing outwards from the outer edge of the tuberosity of the ischium ; and internal to this are seen, de- scending from the ischial tuberosity, the combined origin of the semi-membranosus and long head of the biceps, and the flat tendon of the semi-membranosus, from which that muscle takes it name, coming from a facet of the tuberosity higher up than the com- bined origin of the two other hamstring muscles, and passing down in front of them. Still more in- ternal than the ischial tuberosity, the great sacro- THE LOWER LIMB. 53 sciatic ligament, with the coccygeal branch of the sciatic artery perforating it, is laid bare by removal of the gluteus maximus. The deep branches of the gluteal artery will he seen coming off from the parent trunk, and passing in beneath the gluteus medius; and they may be taken as a guide for the separation of that muscle from the gluteus minimus which it conceals. The gluteus medius is to he separated from the ilium, so as to show the extent of its origin as far forwards as the position of the body renders convenient; hut its most anterior part is to he left to he dissected when the subject is turned. The superior and in- ferior branches of the gluteal artery will then be ex- posed ; and the superior gluteal nerve, a branch from the lumbo-sacral cord, will be seen to supply the gluteus medius and minimus muscles, and to send a branch further forward than can at present be traced, which will afterwards be followed into the tensor vaginae femoris. The gluteus minimus should be de- tached from the ilium in the same manner as the gluteus medius, to show the extent of its origin. O " 0 o Iii contact with the femoral attachment of the quadratus femoris is the upper border of the ad- ductor magnus muscle, which ought to be dissected out. The nerve to the quad ratus femoris will he found descending from the sacral plexus, beneath the ob- turator interims and gemelli; and, above the quad- ratus femoris, by dissecting down to the neck of the femur, the obturator extern us tendon will be seen. The tendon of the obturator interims ought to he divided to display the bursa between it and the ischium, as also the remarkable manner in which it 54 THE LOWER LIMB. is divided into parts on its deep surface. The dis- sector may also divide the quadratus femoris and clear the surface of the obturator externus muscle with the handle of the scalpel, noting the insertion of the psoas and iliacus muscles into the small tro- chanter, without injury to other parts. Between the quadratus femoris and adductor magnus the posterior branch of the internal circumflex branch of the deep femoral artery passes backwards to anastomose with the sciatic artery and superior perforating branch of the deep femoral. 2. The Popliteal Space and Back of the Thigh.—That the form and boundaries of the pop- liteal space may be seen before the displacement of the hamstring muscles, a transverse incision should bo made about four inches above the bend of the knee, and another about two inches below the bend, and the inner ends of these should be united by a third incision, and the flap of integument thus de- fined should be reflected outwards. On the removal of the superficial fat, the fascia lata, strengthened in this part by numerous transverse fibres, will be brought into view, and, towards the lower part, the terminal branch of the small sciatic nerve and the ex- ternal or short saphenous vein dipping in. The fascia may be reflected similarly to the integument; and then the space is to be cleared by dissecting out the boundaries, and afterwards laying bare the large ves- sels and nerves; by which means the fat will be thrown into large isolated masses which can easily be removed. The space is bounded above by the biceps on the outside, and by the semi-membranosus with the semi-tendinosus internal to it on the inside; THE LOWER LIMB. 55 and is bounded below by the two heads of the gas- trocnemius muscle, with the small belly of the plan- taris muscle appearing from underneath the external head. The structures within the space to be brought into view at present may be shortly mentioned. The external popliteal nerve lies close to the biceps muscle, and gives off some cutaneous branches, particularly the peroneal communicating branch descending to the short saphenous nerve at the back of the leg; and it sends in two articular twigs to the outer part of the knee-joint. The internal popliteal nerve descends in the middle of the space and sends two or three twigs to the back and inner part of the joint, and at the lower part of the space gives off sural branches to the gastrocnemius, plantaris and soleus muscles, and the tibial communicating branch for the formation of the short saphenous. The popliteal artery and vein lie close together, the vein superficial and, except at the lower part, external to the artery ; and, inasmuch as the popliteal artery enters the popliteal space from the front by turning round the inner side of the femur, it is deeper than the internal popliteal nerve and to its inner side above, while, being destined to divide into two vessels below, the inner of which is accompanied by the continuation of the nerve, it is naturally crossed by the nerve in the lower part of the space. The origins of the five articular branches of the popliteal artery will also be seen at this time, namely, outer and inner superior articular branch, an outer and inner inferior articular, and an azygos branch coming off directly or from the upper and THE LOWER LIMB. outer branch. The articular twigs of nerve already alluded to correspond with the arteries. The integument and fascia lata separating the popliteal from the gluteal dissection are to be di- vided. The great and small sciatic nerves can then be traced, the latter to its terminal branch already seen, and the former to its division into external and internal popliteal; its muscular branches to the bi- ceps, semi-tendinosus, and semi-membranosus mus- cles being at the same time followed, as also another to assist the supply of the adductor magnus. The three hamstring muscles are to be fully dissected out; and especially the short head of the biceps, the shortness of the fibres of the semi-membranosus, and the tendinous intersection of the semi-tendinosus are to be noted. Also the posterior surface of the ad- ductor magnus muscle should be thoroughly exhibited, and the various arteries which perforate it should be attended to, namely, the four perforating branches of the profunda femoris and the popliteal. The small branch of the obturator nerve to the knee-joint, if not previously exhibited, should be seen piercing the adductor magnus and descending on the popliteal artery to reach the back of the joint. 3. The Front of the Thigh.—The subject having been turned, and the pelvis supported with blocks, the examination of the parts concerned in femoral hernia will be the first thing to occupy the dissector of the lower limb. An incision should be carried inwards along the fold of the groin from the anterior superior spine of the ilium ; from the inner end of the first incision another should be carried down- wards for about four inches; and from the lower end THE LOWER LIMB. 57 of this a third should be carried outwards trans- versely.1 The integument having been reflected out- wards, the subcutaneous fat or superficial fascia is to be removed in like manner, care being taken not to pass so high as to interfere with the fascia of the groin to be dissected by the dissector of the abdomen. In doing this, the lymphatic glands and all vessels and nerves are to be left undisturbed. The lymphatic glands will be seen to form two groups; the upper one oblique, and receiving lymphatics from the in- teguments of the abdomen and genital organs, the lower group vertical, and receiving the superficial lymphatics of the limb. The trunk of the long or internal saphenous vein is seen ascending, receiving usually a large tributary on its inner side, and dis- appearing from view above. Also some smaller vessels are brought into view, namely, the superficial epigastric artery and vein passing upwards on the abdomen, the superficial circumflex iliac passing out- wards and upwards, and the superior and inferior superficial pudic extending inwards. Superficial to the position of the femoral artery, the crural branch of the genito crural nerve makes its appearance; and more internally some small twigs of the ilio-inguinal nerve. Tlio fascia where the internal saphenous vein dis- appears is to he carefully cleared, the ducts and other structures connected with the lymphatic glands over it being preserved ; and it will be found 1 The upper of these three incisions may be omitted if the dis- section be arranged in concert with that of the groin, made by the dissectors of the abdomen. 58 TIIE LOWER LIMB. to consist of comparatively loose structure embrac- ing the saphenous vein, perforated by the ducts and bloodvessels of the lymphatic glands, and connected round about with the firmer fascia lata; this is the cribriform fascia. Passing the handle of the scalpel in underneath the saphenous vein where it dips in to join the femoral, a well-defined margin of the fascia lata will be found beneath it, namely, the inferior falciform process of the saphenous opening; following this margin upwards and outwards, it will be found to become less defined, being con- tinued into the cribriform fascia; but it becomes again more definite above and internal to the en- trance of the vein, where it forms the superior fal- ciform process. The part of the fascia lata external to tli is opening is what is called the iliac portion, while the part internal to it, in which the superior and inferior falciform processes terminate, and which, between these processes, is continued under- neath the femoral vessels, is what is termed the pubic portion. The limits of the saphenous opening having been examined, its outer border may be divided, when the femoral artery and vein surrounded by the crural sheath will be fully brought into view; and if an incision be made through it over the ar- tery, and another more internally over the vein, the sheath will be seen to be divided into two compart- ments, while on the inside of the vein a short blind compartment will be found, containing often a small lymphatic gland; and it is this third compartment which is termed the crural canal, and which is dis- tended by the descent of femoral hernia. Inserting the tip of the little finger into this canal, a firm re- 59 THE LOWER LIMB. sistance will be felt on the inner side, which is caused by the margin of Gimbernal’s ligament. The integument may now be reflected from tbe rest of the thigh and from the surface of the knee- joint, and the subcutaneous fat should be removed in a direction from above downwards, so as to bring the cutaneous nerves into view as they emerge from the fascia lata. A little below the anterior superior spine of the ilium the external cutaneous nerve will he found emerging in two parts, the anterior a couple of inches below the posterior, and supplying the outer side of the thigh. On the fore part of the thigh, about four inches or more below the groin, the middle cutaneous branch of the anterior crural appears, usually divided into two parts, and descends to the front and inner side of the knee. The internal cutaneous nerve, also from the anterior crural, having previously given oft’ an offset which accompanies the internal saphenous vein, is likewise divided into two branches before it pierces the fascia lata; the outer branch appears some inches above the knee, on the inner side of the thigh, while the inner is found lower down, and descends to the inner side of the leg. In front of the last-mentioned nerve a branch of the internal saphenous nerve is to be found on the inside of the knee, and in connection with it there is sometimes a cutaneous branch from the obturator. On the surface of the patella is the syno- vial bursa, effusion into which is termed house- maid’s knee. The aponeurosis is now to be removed from the front of the thigh, leaving, however, a strip from the crest of the ilium to the outer side of the knee; 60 THE LOWER LIMB. and the structures exposed are to be freed from con- nective tissue. The sartorius muscle, crossing the thigh in its whole length from above downwards and inwards, is to be dissected out, and its nervous supply coming off from the cutaneous branches of the anterior crural nerve is to be shown. The hol- low between the upper border of the sartorius and the groin, sometimes named Scarpa’s triangle, is next to be studied. In it are to be found, close to the outside and under cover of the sartorius, the attachment of the rectus femoris to the anterior infe- rior spine of the ilium, and, internal to this, the con- joined psoas and iliacus muscles, the iliacus to the outside and muscular, the psoas to the inside and tendinous; and on the groove between them is the trunk of the anterior crural nerve. To the inner side of the nerve are the femoral artery and vein ; and to the inner side of the vessels, and passing down behind them, the pectineus muscle ; internal to the pectineus is the adductor longus, and still more internally the adductor gracilis muscle, forming the inner border of the thigh, while in an interval be- tween the adductor longus and pectineus is seen a small portion of the adductor brevis descending from behind the former to be inserted behind the latter. The commencement of the profunda femoris artery will also be seen in the space, with the origins of its external and internal circumflex branches. Below tlie level of Scarpa’s space, the femoral artery, with the vein now placed behind it, is to be followed downwards where it is covered by the sartorius muscle, and below the middle of the thigh will be seen to become covered by a tendinous ex- 61 THE LOWER LIMB. pansion which conceals it till it pierces the tendon of the adductor magnus; in the passage thus formed, termed Hunter's canal, it is accompanied by the in- ternal saphenous nerve, a branch of the anterior crural, and gives off the anastomotica magna. The adductor gracilis muscle may now be ex- amined in its whole extent, its nerve from obturator being preserved; and the relations of the lower attachments of the sartorius, gracilis, and semi-tendi- nosus muscles below the knee may be made out. Attention may then be directed to the region ex- ternal to the upper part of the sartorius. Immedi- ately outside it is the tensor vaginae femoris, connected with the strip of fascia lata which has been left; and from its insertion a deep slip of fascia extends up- wards beneath the rectus femoris to the liip-joint. Behind the tensor vaginae femoris are the remainino- parts of the gluteus medius and minimus, and when the gluteus medius is reflected the branch of the gluteal nerve to the tensor vaginae may be seen. The tensor vaginae femoris is to be divided, and the gluteus medius and minimus are to be thoroughly dissected to their attachments, to show the precise extent of their insertions, as well as the bursa between them and the great trochanter, and the arch of fibres, by means of which the gluteus minimus is connected with the upper part of the capsule of the hip-joint. Above the hip-joint the posterior or re- flected tendon of the rectus femoris is seen, and the whole of this muscle may be now dissected out, and the direction of its fibres noted ; also the three other parts of the quadriceps extensor cruris, of which the rectus forms a part, may be displayed, namely, the 62 THE LOWER LIMB. vastus externus and internus, with their fibres directed respectively downwards and inwards and downwards and outwards, and the straight-fibred crureus be- tween them. Along with the muscles on the out- side of the thigh there ought also to be dissected the ascending transverse, and descending branches of the external circumflex artery anastomosing, the former two with the gluteal and sciatic, and the latter with the arteries around the knee. The branches of the anterior crural nerve may now be dissected out continuously from the parent trunk, and will be seen to fall naturally into two groups, a superficial cutaneous set, whose only mus- cular branches are those to the sartorius, and a deep set, which, except when it gives off the in- ternal saphenous, is almost entirely muscular, sup- plying the different parts of the quadriceps extensor femoris, and a slender branch which passes behind the femoral vessels to the pectineus muscle. The branch to the vastus interims also gives off an arti- cular branch which descends on the internal inter- muscular septum with a branch of the anastomotica magna. The accessory obturator nerve, when present, passes over the brim of the pelvis, internal to the great vessels, to aid in the supply of the pectineus muscle, which otherwise receives a twig from the obturator nerve. The pectineus and adductor longus are next to be divided and dissected well up to their attachments. The adductor brevis will thus be brought into view together with the course of the 'profunda femoris artery, with the origins of its four perforating branches, and the anterior division of the obturator THE LOWER LIMB. 63 nerve. When these have been examined, let the adductor brevis be divided, and now the -posterior division of the obturator nerve will be seen, and the branches of the obturator nerve to all the adductor muscles can be made out. The internal circumflex artery is to be followed, and will be seen dividing into two branches, an ascending or anterior branch distributed in the adductors brevis and gracilis and the obturator externus muscle, and anastomosing with the obturator artery, and a transverse or pos- terior branch which has already been seen from behind. The obturator externus muscle is also to be cleaned, and the distribution of the obturator artery outside the pelvis examined. A small branch to the hip-joint will be seen to enter the joint at the notch of the acetabulum, given off either by the posterior division of the internal circumflex or by the obtu- rator artery. The examination of the adductor magnus muscle may now be completed, and the muscle may be divided: also the examination of the quadriceps extensor cruris may be completed, the rectus femoris divided, and an incision made vertically through the crureus to display not only the extent of bone from which it takes origin, but also the few fibres under- neath it, attached to the ascending part of the syno- vial membrane of the knee-joint, and termed sub- crureus. The obturator externus and psoas and iliaeus muscles may now be divided, and the capsule of the hip-joint dissected out. The deficiency of the cap- sule at the back part can be easily brought into view by flexing and abducting the femur; and its strength 64 THE LOWER LIMB. in front is to be noted, where it has added to it the accessoryplio-fernoral or Y-shaped ligament descending from the anterior inferior spine of the ilium. The relations of the head of the femur to the acetabulum in different portions of the limb are to be noted in connection with the subject of dislocations of the joint, and the capsule is afterwards to be opened to show the cotyloid, transverse and round ligaments, and the surfaces of the joint. Sometimes it is preferable, instead of dissecting the hip-joint in this way, to saw through the femur and leave this joint to be dissected by the dissectors of the pelvis, who will have an op- portunity of opening into it from the deep surface of the innominate bone, so as to showT the action of the round ligament without injury to the capsule. 4. The Back of the Leg.—The limb having been separated from the trunk, an incision is to be made down the back of the leg as far as the heel, and the integument reflected. On removal of the subcutane- ous fat, the external and internal saphenous veins will be brought into view as far as the ankle, the external passing behind the outer malleolus, accompanied by the external saphenous nerve, whose double origin has been already noticed, and whose inner root lies at first beneath the fascia lata in the furrow of the gas- trocnemius muscle; also the internal or long saphenous vein passes in front of the inner malleolus in com- pany with the nerve of the same name. The aponeu- rosis of the limb being removed, the muscles of the calf are seen, namely, the gastrocnemius, and under- neath it the soleus appearing at the sides. When they have been cleaned, the gastrocnemius may be divided near its upper part, its heads of origin may THE LOWER LIMB. 65 be separated and dissected closely up to the femur, so as to show the difference in disposition of their lines of attachment; the tendinous expansions on the opposed surfaces of the soleus and gastrocnemius are to be noted, and between them the tendon of the plantaris muscle, which may be divided. The plan- taris muscle is sometimes absent. The popliteal artery is now laid thoroughly bare as far as the lower border of the popliteus muscle, where it divides into anterior and posterior tibial; its relation to the internal pop- liteal nerve at the lower part can be more fully seen; and the nerve from the internal popliteal to the popli- teus muscle is to be found descending outside the vessels to the lower border of the muscle, beneath which it turns; also the branch to the soleus, which is of larger size, will be followed down. The popli- teus muscle will be observed to be covered with an aponeurosis, which may be either raised at the present stage or left untouched till the knee-joint is dissected, as until then the femoral attachment and the action of the popliteus cannot be properly studied. The tibial and fibular attachments of the soleus muscle may now be divided close to the bone, atten- tion being paid to their extent; and the deep surface of the soleus muscle is to be carefully cleaned, and the dissection carried into the substance of the mus- cle so as to exhibit the remarkable arrangement of the short muscular fibres. The tendo Achillis, or common tendon of insertion of the gastrocnemius and soleus muscle, is to be dissected closely down to the calcaneum, and the bursa between it and the upper part of the calcaneal tuberosity is to be dis- 66 THE LOWER LIMB. played. The bulk of the gastrocnemius and soleus may then be removed. The fascia covering the deep layer of muscles is now fully seen, and is to he removed, when, on the libular side will be found the flexor longus pollicis, on the tibial the flexor longus digitorum, and between them and partially covered by an aponeurotic con- nection joining these two muscles,the tibialis 'posticus. Descending superficial to the flexor longus digitorum are the posterior tibial artery with its venae comites and the posterior tibial nerve. In the upper part of its course the nerve furnishes branches to the three muscles, and at the ankle a cutaneous branch which sends twigs.to the heel, and passes on to the sole of the foot. The posterior tibial artery gives oft' near its origin the peroneal, and it also furnishes various small branches, namely, the nutrient artery of the tibia, a branch communicating with the peroneal near the ankle, and muscular branches. The peroneal artery will be seen to pass beneath the flexor longus pollicis, and to be surrounded by its fibres close to the fibula, and to give oft, besides muscular twigs, the nutrient artery of the fibula, the anterior peroneal perforating the interosseous membrane near its lower end, and the communicating branch, the other extremity of which has been seen in connection with the posterior tibial. The region between the inner malleolus and the calcaneal tuberosity is to be dissected so as to show the thickened band of the aponeurosis of the limb extending between those two points, and termed interned annular ligament; the synovial sheaths sur- rounding the tendons of the three deep muscles of the back of the leg are to be laid open, and the rela- THE LOWER LIMB. 67 tious of the tendons to one another, to the bones, and to the posterior tibial artery and nerve are to be noted. 5. The Sole of the Foot.—The foot is to be con- veniently disposed on a block ; an incision is to be made along the middle as far as the toes, and there crossed by a transverse one. The integument being reflected, the plantar cutaneous branch of the poste- rior tibial nerve is to be followed out, and the plantar aponeurosis cleared from fat, when an inner and outer set of small nerves and vessels will be found appearing in the furrows between its middle or main portion and the outer and inner parts which spread over the sides of the sole. The skin of .the toes is to be laid open, and the sheaths of the flexor tendons are to be exposed, and the digital arteries and nerves are to be dissected out. The plantar aponeurosis is then to be divided across the middle, and reflected from the subjacent structures, when the superficial layer of muscles will be brought into view, consisting of abductor pollicis internally, flexor brevis digitorum in the middle, and abductor minimi digiti externally. The flexor brevis digitorum is to be divided near its calcaneal end, and its branch of nerve from the in- ternal plantar found. By the reflection of the flexor brevis, the tendon of the flexor longus digitorum, di- viding into four, will be brought into view; crossed by it, and connected with it the flexor longus pollicis, and joining it from behind the partly fleshy, partly tendinous musculus accessorius; while connected with the tendons into which it divides are four small fleshy slips, the lumbricales muscles. Crossing the musculus accessorius, and passing forwards, are 68 THE LOWER LIMB. the external plantar artery and nerve, the artery dis- appearing beneath the outer tendon of the flexor longus digitorum to be continued into the plantar arch, while the nerve, after giving off a branch to the musculus accessorius, one to the abductor minimi digiti, which will be better seen by partially divid- ing the broad origin of that muscle from the cal- caneum, and one to the flexor minimi digiti, sends in its deep branch along with the plantar arch, and continues on to furnish digital branches to the outer side of the fifth toe and the adjacent sides of the fourth and fifth. The calcaneal origin of the ab- ductor pollicis may now be divided, and the bifur- cation of the posterior tibial artery and nerve into external and internal plantar will be seen, and the internal artery and nerve may be followed on from their origin. The internal plantar artery, much smaller than the external, will be traced to the in- ner side of the great toe ; the internal plantar nerve, larger than the external, will be seen giving off a branch to the abductor pollicis, and dividing into four digital nerves supplying respectively the inner side of the great toe, and the adjacent sides of the first and second, second and third, and third and fourth toes ; and from the first of these branches the nerve to the flexor brevis pollicis will be found coin- ing off, and from the second and third the nerves to the two inner lumbrieales. At this stage of the dis- section the tendinous sheaths on the toes should be dissected out and divided, and the arrangement of the tendons within them should be examined ; but the dissection of the insertions of the lumbrieales must be left till a later period. THE LOWER LIMB. 69 The posterior tibial nerve and the tendons of the long flexors must now be divided below the ankle and reflected, and the short muscles of the great and little toes, together with the 'plantar arch and deep branch of the external plantar nerve, are to be dis- sected out. In reflecting the tendons, care is to be taken not to injure the nerves to the two outer lum- bricales, coming from the branch named. The other twigs from the same branch are distributed to the adductor pollieis, the transversus pedis, and the in- terossei; the two outer interossei may, however, re- ceive their twigs from the inner digital branch of the external plantar. The abductor pollieis will be distinguished by having its fibres collected to a dis- tinct tendon on the inner side of the great toe; the flexor brevis pollieis lies next, and is fleshy and in- serted in two heads, with which are connected the two sesamoid bones of the ball of the toe; the ad- ductor pollieis, placed to the outside of the flexor, is a wide muscle crossing the sole obliquely, so as to conceal to a considerable extent the interossei; and the transversus pedis lies transversely, arising close to the heads of the metatarsal bones, and must not be destroyed, in dissecting out the vessels and nerves superficial to it. The flexor minimi digiti will be easily distinguished from the abductor by being fleshy and arising from the fifth metatarsal bone. The flexor brevis and adductor pollieis are now to be divided, and the exact extent of their origins are to he carefully made out. A complete view of the plantar arch will thus be obtained, showing its inos- culation in the first interosseous space with the dor- sal artery of the foot. Its four digital branches to 70 THE LOWER LIMB. the three outer interdigital spaces and outer side of the little toe will be seen, and also the three posterior perforating branches passing up through the three outer interosseous spaces. In the first interosseous space will be found the arteria magna pollicis, usually coming off from the termination of the dorsal artery of the foot, but sometimes continuous rather with the plantar arch; it supplies the adjacent sides of the first and second toes and a branch to the inner side of the great toe. The interossei muscles will be better dissected at a later stage. 6. The Front of the Leg and Dorsum of the Foot.—A block may be placed under the knee, and on removing the remaining integument and the subcutaneous fat, there will be found, above, the distribution of cutaneous branches of the external pop- liteal, and in the lower part of the leg the trunk of the musculo-cutaneous nerve piercing the fascia lata. On the dorsum of the foot the arch of vein from which the external and internal saphenous take origin will be seen ; the external saphenous nerve will be traced to the outer and inner sides of the little toe, the internal saphenous nerve to the inner side of the foot, and the musculo-cutaneous nerve to the in- ner side of the great toe, the adjacent sides of the second and third, and of the third and fourth toes, and the outer side of the fourth toe ; while the ante- rior tibial nerve will be found becoming cutaneous between the first and second metatarsal bones, and supplying digital branches to the adjacent sides of the first and second toes. The aponeurosis is now to be removed, with the exception of the bands constituting the anterior an- THE LOWER LIMB. 71 nular ligament. Of these, the most important form a strong loop round the extensor longus digitorum and peroneus tertius muscles, and is attached to the fore part of the calcaneum in the hollow between it and the astragalus; somewhat irregular bands con- tinue inwards from this loop, the strongest band passing superficial to the extensor pollicis and on the deep surface of the tibialis anticus. The upper part of the aponeurosis of the leg had better be removed from below upwards, as it gives origin on its deep surface to muscular fibres. .The four muscles of the front of the leg are now to be dissected fully out. Two of them are seen in the whole extent of the leg, namely, the tibialis anticus internally, and the extensor longus digitorum externally; continuous with the lower border of the latter is the origin of the 'pero- neus tertius, and rising deeply bet ween the two longer muscles is the extensor 'pollicis. Lying deeply on the interosseous membrane are the anterior tibial vessels and nerve; the artery will be seen piercing the membrane from behind, and immediately giving off' a recurrent branch to the knee, while near the ankle it gives off an external and internal malleolar branch ; the nerve may be traced back through the fibres of the extensor longus digitorum, and its branches to the muscles may be followed out. Beneath the peroneus tertius will be found, piercing the inter- osseous membrane, the anterior peroneal artery. On the foot the tendons of the long extensor muscles are to be dissected out; also the extensor brevis digitorum ; and the nerve to that muscle is to be found coming from the external division of the anterior tibial, whose other twigs supply the joints. 72 THE LOWER LIMB. The continuation of the anterior tibial artery, called dorsal artery of the foot, is to be followed to its dis- appearance between the heads of origin of the first dorsal interosseous muscle; and its relation to the tendon of the extensor pollicis, which crosses it, is to be noted. Its tarsal and metatarsal branches are to be traced, with the dorsal digital branches derived from the latter. The insertion of the lumbricales muscles into the expansions of the extensor tendons of the four outer toes should now be seen, and the mode of insertion of the.middle part of each expan- sion into the second phalanx and of the lateral fibres into the last phalanx should be made out. The peroneus longus and brevis muscles are now to be dissected. Their nerves will be found given off from the musculo-cutaneous ; and the division of the external popliteal nerve into musculo-cutaneous and anterior tibial will be found in close connection with the origin of the peroneus longus. The peroneus brevis will be followed behind the external malleolus to its insertion; the peroneus longus will be seen entering the groove on the cuboid bone; hut the sheath which contains it in its course across the sole to the base of the first metatarsal bone cannot be opened at present without injury to the ligaments of the foot. Lastly, the interossei muscles are to be dissected ; and to do this thoroughly the transverse metatarsal ligament must be sacrificed. Three plantar interossei will be found arising from the plantar surface of the three outer metatarsal bones, and inserted on the inner sides of the corresponding first phalanges; and four dorsal interossei, arising from the adjacent THE LOWER LIMB. metatarsal bones bounding each of the interosseous spaces, are inserted, the innermost into the inner side of the first phalanx of the second toe, and the others into the outer sides of the second, third, and fourth toes. 7. The Knee-joint and Articulations of the Foot.—The insertions of muscles around this joint, if not thoroughly followed out previously, are to be so now; and the anastomoses of the articular branches of the popliteal artery, the anastomotic of the femoral, and the recurrent of the anterior tibial, followed as far as possible.. The vasti and crureus muscles are to be dissected as separate as possible from the under- lying superior and lateral pouches of the joint, and the ligamentum patellae is to be brought out clearly, the bursa between it and the tibia being laid open, and attended to the more particularly, as it is liable to inflammation. The internal and external lateral ligaments are to be dissected out, and the flexion, extension, and rotation allowed at the knee studied. The semi-meynbranosus tendon is then to be followed to its three divisions, one taking part in forming the posterior ligament, another passing forwards under cover of the internal lateral ligament, and the third expanding into the aponeurosis of the popliteus muscle. This aponeurosis is to be removed, and the popliteus muscle is to be followed up to its insertion into the femur under cover of the external lateral ligament. The joint may then be opened from above, in front of the lateral ligaments ; and in the interior will be found a pad of fat, or so-called Haversian glands below the patella, with the ligamentum mucosum passing from the middle of it to the fossa 74 THE LOWER LIMB. between the condyles of the femur, and two lateral folds, called alar ligaments, extending laterally from it. The extent of the synovial membrane should be studied ; the external or anterior, and the posterior or internal crucial ligament should be dissected out, and their degree of tension in different positions of the joint noted, and the loose parts of the walls of the joint should be removed so as to let the semilunar cartilages be more fully seen, and to allow of a de- tailed inspection of the relations of those cartilages and of the articular surfaces of the bones in different positions of the joint. The upper and lower tibio-fibular articulations are next to be studied, as well as the interosseous membrane; and for this purpose the muscles are to be completely removed from the leg. The upper tibio-fibular joint presents an anterior and posterior ligament and a synovial membrane for study. The lower joint presents an anterior and posterior liga- ment and a long band, tlie transverse ligament, which deepens the concavity for the ankle-joint below the posterior ligament, and also an interosseous ligament, which, however, cannot be seen till, at the end of the whole dissection, the bones are separated; its synovial cavity is a prolongation from the ankle-joint. The ankle-joint presents little which can be called an anterior or posterior ligament although scattered fibres in its capsule are described by those names; but it has strong lateral ligaments, the internal one spreading out below to be attached to the scaphoid calcaneum and astragalus, the external consisting of three distinct parts at right angles, the anterior and posterior parts attached to the astra- THE LOWER LIMB. 75 galus, and the middle part descending to the os calcis. These lateral ligaments are to be cleaned, and the rest of the wall of the joint removed; and the movements are then to be studied. The articu- lations of the astragalus, with the calcaneum and scaphoid, next demand attention; and the dorsal membrane uniting the head of the astragalus with the scaphoid may be removed, as also the synovial membrane between astragalus and calcaneum behind, so as to allow the movements to be properly seen; but the interosseous astragalo-calcaneal ligament can only be seen from the side at present, and cannot be laid bare till the bones are separated. The in- ferior and external calcaneo-scaphoid ligaments, which support the head of the astragalus, can, however, be studied now. The remaining; ligaments of the dorsum and sole of the foot should be thoroughly cleaned. Numerous short dorsal bands will be found uniting the tarsal and metatarsal bones; and on the under surface fibres will be seen prolonged from the tendon of the tibialis posticus to the three cuneiform and the cuboid, and the second, third, and fourth metatarsal bones; also the ligamentum longumplantce, or long calcaneo-cuboid ligament, will be seen, and, after its removal, the short calcaneo-cuboid. The transverse and longitudinal arclies of the foot should now be studied, and the ligaments of the phalangeal and metatarso-phalangeal articulations; and the bones may finally be disarticulated, to show the extent of the synovial membranes and the dis- position of the various interosseous ligaments. DISSECTION OF THE HEAD AND NECK. 1. Scalp and Back of the Neck.—The subject being placed with the face downwards, and a block put under the chest, let an incision be made from the seventh cervical spine to the vertex of the head, and let two others be made respectively from the ear and from the tip of the shoulder, to meet the first incision at its upper and lower extremities. On reflection of the flap of integument thus marked out, there will be brought into view, in the neck princi- pally, portions of two muscles, viz., the cervical part of the trapezius, with cutaneous branches of the pos- terior divisions of the third, fourth, and fifth cervi- cal nerves on its surface, and, external to it, the posterior part of the cranial attachment of the sterno-mastoid; while between the two is a small and variable extent of the splenius, and sometimes even a portion of the complexus is visible internal to the splenius. Piercing the upper part of the com- plexus and trapezius is the great occipital nerve, derived from the posterior division of the second cervical, and external to it the occipital artery, a branch of the external carotid; these are both to be traced up on the scalp; and nearer the middle line a small branch from the third cervical nerve is to he found; while, further out, along the posterior bor- der of the sterno-mastoid, the small occipital nerve, a THE HEAD AND NECK. 77 branch of the cervical plexus, will be seen ascending. Beneath these structures is the posterior fleshy belly or occipital part of the occipito-frontalis attached to the superior curved line below, and ending above in its aponeurosis, which is likewise to be brought into view, so as to show its close connection with the sub- cutaneous fat, and its free movement on the pericra- nium underneath. By dissecting close to the back of the ear, the little retraliens aurem muscle will be found passing forwards from the mastoid process, and underneath it the posterior auricular branch of the external carotid artery, as also the posterior auri- cular branch of the facial nerve supplying the retra- hens aurem and occipital part of the oecipito-frontalis muscle. By turning the head well to one side, and making an additional incision, the attolens aurem muscle, descending to the ear, and the attrahens aurem in front of it, may be also dissected at pre- sent, or they may be left till another opportunity. The cervical part of the trapezius should he divided by means of a vertical incision made in co-operation with the dissector of the upper limb; and along with him the spinal accessory nerve and superficial cervical artery descending on the deep surface of the trapezius should be dissected out. The splenius muscle is next to be cleaned, and afterwards divided vertically about an inch from the middle line, and its attachments dissected up to their bony connections, so as to distinguish the splenius capitis and splenius colli, and bring into view the trachelo-mastoid muscle ascending between it and the complexus muscle; also the occipital artery, close to the skull, is to be cleared in the part of its course 78 THE HEAD AND NECK. beneath the trachelo-mastoid and splenius muscles, and its cervical branch followed downwards. The complexus muscle is to be detached from the occipital bone and reflected, and the deep cervical ar- tery, anastomosing with the cervical branch of the occipital, is be dissected ; and then it will be ob- served that the muscles laid bare fall into two groups, one above and the other below the spine of the axis. Those below the axis, consisting of the semispinalis and muscles covered by it, are to be left to the dissectors of the upper limbs, while those above the axis may be dissected forthwith. Passing obliquely upwards and outwards from the spine of the axis to the transverse process of the atlas is to be seen the obliquus capitis inferior muscle, and pass- ing up from the transverse process of the atlas to the skull is the obliquus capitis superior; extending upwards from the spine of the axis to the occipital bone is the rectus capitis posticus major, while partly under cover of it and partly visible on its inner side is the rectus capitis posticus minor extending to the occipital bone from the posterior tubercle of the atlas. The great occipital nerve is seen passing over these muscles; and in the triangular space left be- tween the obliqui and recti muscles will be found the sub-occipital nerve emerging above the atlas, and giving off branches to all four muscles, and the ver- tebral artery passing in over it. Should the above dissection be completed in the first two days, the dissector may employ the remain- ing two days before the subject is turned on its face either in dissecting the brain, if the subject be fresh and it be decided to dissect the brain in situ, or in 79 THE HEAD AND NECK. dissecting the orbit according to the directions given at page 110. 2. Exposure and Removal of the Brain.— The brain may be removed, with the subject placed either on the back or on the face: and, although the position on the back is that more frequently chosen, there is good authority in favor of the position on the face, and it is questionable that it does not afford as much facility as the other. The process of expo- sure is the same in either case. In a 'post-mortem examination of a body to be after- wards seen by tlie friends of the deceased, it is ad- visable to divide the scalp by an incision from ear to ear, so that the appearance of the face shall not be injured when the calvarium is replaced after ex- amination of the brain ; but for anatomical purposes it is preferable to direct the incision along the mid- dle line from above the nose to the occipital tube- rosity. The knife is to be carried quite down to the bone, dividing the integument, subcutaneous fat, occipito-frontal aponeurosis, and the pericranium; and with the fingers and handle of the scalpel the pericranium is then to be detached from the skull, and the scalp is to be reflected. At the sides, how- ever, it will be found that the temporal aponeurosis will remain attached along by the temporal ridge, with the temporal muscle taking origin beneath it; and these structures must be divided at the level at which the saw is to be carried round the skull. This level should be in front, about an inch above the orbits, and behind should pass through the pro- bole or most prominent part of the occipital bone, a little lower down when the subject is on its face 80 THE HEAD AND NECK. than when it is placed on its back. Only the ex- ternal table of the skull is to be sawn through ; the inner table should be left uninjured. To divide the inner table resort is to be had to the chisel and mallet, with which it may be cracked completely round by a few sharp strokes. The chisel may then be inserted in the middle line, in front or behind, and turned forcibly round, so as to tear the calvarium away from the dura mater on its deep aspect. In the middle line of the exposed part of the dura mater will be seen a venous channel contained.in its substance, the superior longitudinal sinus, which should be opened into so as to exhibit its shape and dimensions ; and on each side of this will be seen, particularly in old subjects, irregular bodies, the Pacchionian corpuscles, which will be understood more distinctly when the dura mater is raised. Also the middle meningeal artery is seen branching on each side. The dura mater is now to be divided on a level with the edge of the skull, except only where it is deeply connected in the middle line. The serous cavity of the arachnoid space will be thus opened into, and the dura mater should be raised on each side towards the middle line. Then numerous veins from the surface of the brain will be seen crossing the space and turning backwards on the walls of the superior longitudinal sinus before en- tering that channel. On dividing these, the cere- bral hemisphere may be slightly turned outwards, and the falx cerebri, a process of the dura mater, will be seen descending in the longitudinal fissure between the hemispheres, being attached in front to THE HEAD AND NECK. 81 the crista galli of the ethmoid bone, and behind to a transverse septum of dura mater, the tentorium cerebelli, and having in its free edge between those attachments a minute vein, the inferior longitudinal sinus. The brain may now be examined in situ, or re- moved, in order that it may be hardened with spirit. If it is not intended to use preserving agents, ex- amination of the upper and interior parts of the brain in situ, before removal of the basal parts, is to be preferred to immediate removal, as it allows the interior to be seen without accidental laceration or disturbance, and when the interior parts have been first disposed of, the base can be spread out advan- tageously for display. The method of removal varies according to the position of the subject. If the subject be on its face, the posterior lobes of the hemispheres should he raised; the edge of the knife should he applied to the free margin of the tentorium close to the border of the petrous portion of the temporal hone, and by a firm cut the fourth and fifth nerves may be divided along with the ten- torium without being previously brought into view. The knife is then to be carried along the outer at- tachment of the tentorium to within an inch of the middle line ; at the middle of the free edge, the veins of Galen, emerging from the interior of the brain, are to be divided, and tentorium and falx may then be thrown back, the lobes of the cerebellum raised, the spinal cord and vertebral arteries in front of it divided as low down in the spinal canal as pos- sible, and the nerves divided in series from below 82 THE HEAD AND NECK. upwards, close to the places where they pierce the dura mater. After dividing the third pair, the in- fundibulum will be seen descending to the pituitary body in the sella turcica, and on division of it, on each side further forward will be found the internal carotid, artery with the optic nerve immediately in front of it; and on division of these the brain can be removed, care being taken to raise with it the olfac- tory lobes from their resting places on the cribriform plate of the ethmoid bone. If the subject be lying on its back when the brain is to be removed, the anterior lobes of the hemispheres, with the olfactory bulbs, are to be first raised, the optic nerves, internal carotid arteries, infundibulum and third pair of nerves are then to be severed; and after that the tentorium is to be divided near its attachment, the fourth and fifth nerves being divided along with it, then the other nerves in series, and afterwards the vertebral arteries and spinal cord; while, last of all, when the brain has been dislodged, it is necessary to divide the veins of Galen to prevent the choroid plexus being torn from its place. If the brain is to be preserved, it will be advisable, if possible, to examine the bloodvessels of the base at once. The brain should then be held under a stream of water, which enables the whole or the greater part of the arachnoid and pia mater to be removed, so as to lay open the sulci and allow ready entrance to the spirit. The cerebellum should also he lifted up a little from the posterior lobes of the cerebrum to allow the pia mater to be dissected a little at the back of the corpus callosum, so as to give the spirit ingress into the ventricles. THE HEAD AND NECK. 83 3. Base of Brain and its Vessels.—Some folds of calico moistened with spirit having been arranged like a nest on a plate, so as to support the hemi- spheres, the brain is laid on it with the base turned upwards. The student will then observe, in the first place, the main masses of the encephalon. lie will notice that the medulla oblongata, the expanded con- tinuation upwards of the spinal cord, is terminated above by a transverse structure, Varolii, that the pons is continued on each side into a gray lami- nated structure, the cerebellum, which forms much the larger bulk of the part which was removed from be- neath the tentorium ; and that above the pons Varolii a pair of divergent pillars, the crura cerebri, pass up- ward to disappear under cover of the cerebral hemi- spheres. He will further note, in a general way, the projection of each hemisphere into anterior, middle, and posterior lobes, and the separation of the two first by the fissure of Sylvius ; also the existence of a rhom- boid space between the two middle lobes, bounded behind by the crura cerebri, and in front by the optic commissure, from which the optic nerves take origin and the optic tracts diverge in a backward direction. The arrangement of the arachnoid membrane or serous envelope of the brain, and of the pia mater or vascular covering, may now be examined. The region between these two membranes constitutes the subarachnoid space, and demands particular attention, not only over the sulci of the cerebellum and cerebral hemispheres, but over the rhomboid space, the fissure of Sylvius, and round the isthmus cerebri, or narrow part between the cerebrum and cerebellum ; also over 84 THE HEAD AND NECK. the interval between the cerebellum and medulla oblongata, called the opening into the fourth ventricle. The arteries to be studied on the surface of the brain are the following. Behind are the vertebral arteries on the medulla oblongata, giving off the pos- terior spinal, the anterior spinal, and tlie posterior in- ferior cerebellar; the basilar artery formed by the union of the two vertebral s, lying on the pons Varolii and giving off the anterior inferior cerebellar arteries, the superior cerebellar arteries, and small transverse arteries, and the acoustic artery to supply the internal ear; and terminating by division into the posterior cerebral arteries. At the origin of these arises a mesial bunch of minute vessels which dip into the brain at the posterior perforated spot, and further out the posterior communicating artery on each side joins the posterior cerebral. Fdrther forwards are the divided internal carotid, arteries, giving off the posterior communicating, and dividing into anterior and middle cerebral. At its commencement the mid- dle cerebral artery gives off the choroid artery, which is a vessel entering by the fissure between the crus cerebri and middle lobe of the brain to supply the choroid plexus of the lateral ventricle; also a brush of small vessels dipping directly into the brain, and by their apert ures of entrance forming the anterior perfo- rated, spot. Joining the anterior cerebral artery with its fellow is the exceedingly short anterior communi- cating artery, which closes in front the circle of anas- tomosis, completed behind by the posterior cerebral and posterior communicating arteries, and known as the Circle of Willis. Tlie surface of the brain is now to be more fully THE HEAD AND NECK. 85 exposed by the removal of the arachnoid and pia mater, care being taken not to injure the origins of the nerves; and the arteries also are to be taken away as soon as their relations to the nerves have been noted. On laying open the fissure of Sylvius, the gyri operti, or island of Reil, will be brought into view, lying in the bifurcation of the fissure, and bounded in front and behind by the orbital and temporal con- volutions, and externally by the lower frontal, a con- volution which has received much attention in the history of the malady known as aphasia. The origins of the olfactory tract are next to be noted. The lower portion of one or both of the anterior lobes may then be pared away so as to exhibit the reflected part of the corpus callosum lying in the longitudinal fissure, and terminating in two peduncles directed backwards and bounding the lamina cinerea, a delicate part of the floor of the brain, descending to be attached to the upper surface of the optic commissure. Behind the optic commissure, the contents of the rhomboid space plaim attention ; namely, from before back- wards, the tuber cinereum, or lamina of which the infundibulum is a prolongation; the corpora albi- cantia; the posterior perforated spot; and the third pairs of nerves. The fourth pair of nerves and the optic tracts may at this stage be followed round the crura cerebri to their origins by raising the cere- bellum carefully ; but they will be seen more fully afterwards from above. The fifth nerve is seen emerging from the pons Varolii in two parts, the small motor root placed higher up than the larger or sensory portion. Between the pons and the medulla 86 THE HEAD AND NECK. oblongata is to be found, close to the middle line, the sixth nerve; and further outwards, in the angle between the pons medulla and the flocculus, or sub- pedunculated lobe of the cerebellum, is the seventh nerve, in two parts, the innermost of which is the portio dura or facial, and the outer the auditory nerve or portio mollis. The medulla, oblongata, on being carefully denuded of its membranes, is seen to exhibit on each side of the middle line three elevations—the anterior pyra- mid', the olivary body, and the restiform body, the latter entering the cerebellum. In front of the olivary body is the ninth or hypoglossal nerve; and between the olivary and restiform bodies are the three nerves constituting the parts of the eighth, viz., above, a small division, the glosso-pharyngecd, below it the much larger vagus or pneumogastric, and lowest of the three the spinal accessory, the whole origin of which can seldom be removed with the brain. In the anterior mesial fissure is to be laid bare the decus- sation of the pyramids, and beneath the olivary body the arciformfibres will be seen. 4. Dissection of the Brain from above.—This dissection is made best on a preserved specimen, or on a brain in situ ; but if the brain be in the recent condition, and has already been examined from be- low, care must be taken in turning it over, so as not to allow the hemispheres to fall separate and tear the internal parts. The convolutions and sulci may be tirst examined, but these can only be studied with advantage on a hardened specimen denuded of its membranes. However, the fissure of Rolando will be noticed extending outwards and forwards from the THE HEAD AND NECK. 87 vertex, bounded by the anterior and posterior ascend- ing parietal convolutions; and further back, the margin of the longitudinal fissure (the marginal convolution) is indented by the upper end of the ver- tical or occipito-parieial fissure, which can be brought further into view by slight eversion of the hemi- spheres, and is not to be lost sight of. Witliin the longitudinal fissure the disposition of the arachnoid and pia mater is to be noted, and the anastomoses of the anterior and posterior cerebral arteries; the corpus callosum will be seen at the bot- tom of the fissure. With a large knife with a wet blade the hemispheres are now to he successively cut horizontally across a little above the level of the corpus callosum. The gyrus fornicatus will be seen circling round the corpus callosum, divided behind by the vertical fissure, where the latter is continued down into the fissure of the hippocampus major, not yet brought properly into view ; and, passing back from that point into the posterior lobe, is the calcarine fissure. Lay bare the whole upper surface of the corpus callosum; note the transverse direction of its fibres, the longitudinal marks termed raphe and nerves of Lancisi, the thick posterior border or bourrelet, and the genu or curve downwards in front. By means of two longitudinal incisions, one on each side of the corpus callosum, open into the two lateral ventricles separately, cutting away as much of the substance of the hemispheres as is necessary to show the whole extent of the floor. The lateral ventricles will then be seen to be separated one from the other by the septum lucidum, and in the floor of each will, be seen from before backwards the corpus striatum, 88 THE HEAD AND NECK. with the foramen of Munro internal to it, a delicate band called taenia semicircular is, the anterior and outer part of the optic thalamus, the choroid plexus, and a moiety of the fornix. The cul-de-sac in front is the anterior cornu of the lateral ventricle. The posterior cornu, extending back in the posterior lobe, is to he laid open in its whole length, and on its inner side will be seen an elevation, the hippocampus minor, which may he shown to correspond with the calcarine fissure. The middle or descending cornu is marked by the choroid plexus and posterior crus of the fornix passing into it, and is to be exhibited in its whole length, on one side at least, by placing the point of the knife in the cornu and cutting upwards outside the corpus striatum, and freely in the out- ward direction, so as to remove a large block of the hemisphere. By this section the striated structure from which the corpus striatum is named is exhi- bited; and in the descending cornu are seen the elevation termed hippocampus major, with the tcenia hippocampi or corpus fimbriatu-m internal to it con- tinued down from the'posterior crus of the fornix, and the choroid plexus ; also, at the extremity of the cornu, the pes hippocampi. The corpus callosum is now to be cut across about an inch from the poste- rior border; the septum lucidum in front of this is to be divided with scissors, and the part of the corpus callosum thus liberated is to be reflected forwards or removed. Between the two layers of the septum lucidum the fifth ventricle can now be seen ; a view is also obtained of the whole upper surface of the fornix. For the removal of the fornix the best mode of proceeding is to make two cuts, severing the remain- 89 THE HEAD AND NECK. ing posterior parts of the corpus callosum from the hemispheres. Each cut should be directed forwards and outwards from the point where the hack of the corpus callosum passes into the hemisphere, and is to be carried through the posterior crus of the fornix, without injury to the underlying reflection of pia mater. The back part of the corpus callosum can then be lifted up, and the fornix attached to it can be reflected forwards, so as to exhibit the appearance on its under surface, named psalterium or ?yra, and also the dipping down of the anterior crura. The reflection of pia mater called velum interpositum, of which the choroid plexuses of the lateral ventricles are the vascular edges, is now exposed, with the veins of Galen running down the middle; and, on the side on which the descending cornu has been dissected, the posterior lobe of the hemisphere may be lifted up and the transverse fissure of the brain, by which the velum interpositum and choroid plexus enter from without, may be laid open to the bottom of the cornu. By this means the posterior part of the gyrus fornicatus will be displayed, with the sul- cus hippocamjn between it and the tsenia hippocampi, and the so-called fascia dentata at the bottom of the sulcus. The choroid plexus is to be divided on each side at the entrance into the descending cornu; the pia mater behind the velum interpositum is to be raised from the corpora quadrigemira, which it covers, and as it is reflected forwards, care is to he taken to separate from it without injury a body about the size of a small pea, the pineal body, which is attached delicately in front of the corpora quadrigemina ; the 90 THE HEAD AND NECK. velum interpositum can then be raised completely, so as to display the third ventricle beneath it, and on the under surface of the velum interpositum the choroid plexus of the third ventricle. In the third ven- tricle, attention is to be paid to the connection of the pineal body with the rest of the brain by a folded white lamina called the posterior white commissure, and to its pair of peduncles, also to the anterior white commissure in front of the anterior crura of the fornix, and to the middle or soft commissure uniting the optic thalami, but sometimes absent. The anterior extremity of the aqueduct of Sylvius or iter a tertio ad quartum ventriculum will be recognized below the posterior white commissure. Between the corpora quadrigemina and optic thalamus on each side the little elevations called outer and inner corpora geniculata, in connection with the optic tract, are to be noted; and between the corpora quadrigemina and cerebellum the valve of Vieussens (or anterior velum) with the superior crura of the cerebellum or processus a cerebcllo ad testes on each side of it, and the fourth pair of nerves arising from its fore part. At this stage it is advisable, if the base have been previously examined, to divide the isthmus cerebri, separating the cerebrum from the posterior parts of the encephalon by a cut passing through the valve of Vieussens above and the crura cerebri below. In the section the locus niger will be seen. The right and left portions of the cerebrum should be separated by an incision in the middle line ; the parts displayed in section should be studied, and one of the anterior crura of the fornix should be followed down to the corresponding corpus albicans, and its fibres traced 91 THE HEAT) AND NECK. thence into the optic thalamus. On the least injured side transverse sections should then be made. Divide on each side the restiform body and the pons Varolii where they are about to enter the cere- helium, forming its inferior and middle crura. The fourth ventricle will thus be laid open; the groove called calamus scriptorius will be seen on its floor, continued up from the opening of the central canal of the spinal cord. Fibres of the auditory nerve will be seen extending to the middle line, and lower down the delicate flap called the ligula ; also internal to the restiform bodies and the posterior pyramids, whose fibres may be traced beneath the gray matter of the floor towards the cerebrum. The various lobes and laminse of the cerebellum may now be studied ; but it is only necessary here to mention the amygdala placed on each side of the vallecula, behind thefloc- culus, and, in the vallecula, the inferior vermiform process, divided into parts from behind forwards, named the pyramid, uvula, and nodule or laminated tubercle. At each side of the laminated tubercle is a thin layer of cerebral substance, the posterior velum, which forms the posterior limit of the original cavity of the cerebellum seen in the fnetus and lower kinds of vertebrata. The cerebellum should now be divided by mesial section; and another vertical incision should be made backwards and outwards, so as to exhibit the corrugated gray centre, called corpus dentatumi, found in each lateral half. A simi- larly shaped centre, the olivary nucleus, is seen on transverse section through the olivary body of the medulla oblongata. 92 THE HEAD AND NECK. 5. Superficial Dissection of the Neck.—It is necessary that the surgically important region in which the third part of the subclavian artery lies, behind the sterno-mastoid muscle, should be studied before the removal of the arm ; and it is well that in conjunction with the dissection of the arm an exa- mination should be made of the structures passing into it from the neck ; the posterior triangle should therefore be dissected during the first three days after the subject has been laid on its back, and on the morning of the fourth day the clavicle should be either divided or disarticulated. The shoulders of the subject having been raised by a block, the head should be allowed to hang back over the end of the table, with the face inclined away from the side to be dissected. A mesial incision may be made from the sternum to the chin, and another outwards along the clavicle to the acromion to join the incisions already made from behind, care being taken not to injure the muscular fibres of the platysma myoides and the branches of cutaneous nerves descending over the clavicle. Re- flect. the skin towards the face, and at the same time display underneath it the platysma myoides muscle ; then let it also be reflected upwards, and dissect the trunks of superficial veins and nerves. The anterior and external jugular veins present varieties in differ- ent subjects, but the anterior is distinguished by dipping down to the deep structures in front of the sterno-mastoid muscle, while the external jugular dips down behind that muscle. The nerves to be sought are the superficial branches of the cervical plexus, and radiate from the middle of the posterior border THE HEAD AND NECK. 93 of the sterno-mastoid muscle; the small occipital ascends along the posterior border of the muscle, the great auricular is directed towards the interval between the ear and the jaw, the superficial cervical turns directly forwards before dividing over the anterior triangle or part of the neck in front of the sterno-mastoid muscle; and the descending branches, stretching over the posterior triangle, are distin- guished as suprasternal, supra-clavicular, and supra- acromial. 6. Posterior Triangle.—In pursuing the dissec- tion just made, a considerable amount of loose con- nective tissue will be found, in which the descending cutaneous branches of the cervical plexus are im- bedded. This is now to be removed ; the posterior border of the sterno-mastoid muscle and anterior border of the trapezius are to be cleared, and the dis- position of the fascia stretched between them is to be noted. In the lower part of the space will be seen the posterior belly of the orno-hyoid muscle ex- tending backwards and downwards, and bound down by an important layer of deep fascia, which inverts it, and is attached interiorly to the clavicle. This belly of muscle subdivides the posterior triangle. The superior division ma}*be cleared out first. In its upper part, connected with the descending cutaneous nerves, will be found the spinal accessory nerve, which is to be followed from its place of exit from the sterno-mastoid to its disappearance beneath the trapezius muscle. A chain of lymphatic glands (glandulce concatinatce) is to be displayed along by the posterior border of the sterno-mastoid muscle. Forming the floor of this upper part of the posterior 94 THE HEAD AND NECK. triangle will be found the upper portions of the splenius capitis and colli, of the levator avguli scapulae, and of the scaleni muscles. The deep fascia binding down the posterior belly of the omo-hyoid muscle is now to be removed, and the dissection of the inferior division of the posterior triangle proceeded with. The structure which should be first sought for is the nerve to the subclavius mus- cle, a small twig which descends from the forepart of the junction of the fifth and sixth nerves, and is lia- ble to be destroyed if not saved at once. The external jugular vein is then to be followed to its termination in the subclavian; the scalenus anticus muscle is to be cleared, with the phrenic nerve on its surface; and emerging from beneath the outer border of that muscle will be found, in series from above down- wards, the two upper trunks of the brachial plexus, and the subclavian artery. The upper trunk of nerve will he seen to be formed by the union of the fifth and sixth, while the second consists of the seventh nerve; the artery will be found to curve over the apex of the pleural sac. Crossing the space is the transverse cervical artery with its vein superficial to it; and in many instances the posterior scapular artery, usually reckoned as a divisicfn of the transverse cer- vical, will be seen arising from the subclavian in the space. Behind the clavicle will he found the supra- scapular artery and vein. 7. Anterior Triangle.—The surface of the sterno- cleido-masloid muscle should now be completely cleaned, as well as the muscles in front of it, viz., the sterno-hyoid, sterno-thyroid, and anterior belly of the omo-hyoid; and at the same time care should be taken 95 THE HEAD AND NECK. of the branches to these muscles from the loop formed by the hypoglossal nerve with communication from the cervical plexus, as also of the various layers of fascia in the middle line. One layer of fascia will be found extending between the sterno-mastoid muscles of opposite sides, and attached to the fur- cula of the sternum; another between the sterno- hyoid and sterno-thyroid muscles of opposite sides; and a third still deeper, extending down into the thorax. These and the other structures met with near the middle line are to be studied in relation to the operation of tracheotomy. The other structures are the inferior thyroid veins, the ima thyroidca artery (when it is present), the isthmus of the thyroid body above, the innominate artery below, and on each side of the trachea the common carotid. In the upper part of the anterior triangle of the neck is to be exposed the digastric muscle, the pos- terior belly of which, together with the stylo hyoul muscle, extending from behind the ear to the hyoid bone, separates the district below the chin known as the digastric space from the neck proper. The nerve (from the third division of the fifth) to the anterior belly of the digastric will be found at its outer border near the jaw, and, traced backwards, will be seen to be one of the branches of a small trunk, the other branch of which enters from the superficial aspect the mylo-hyoul, the flat muscle beneath the anterior belly of the digastric. The superficial and larger part of the submaxillary gland must at the same time be dissected out, with the trunk of tliq facial artery, which is in close connection with it, and furnishes it with twigs, and gives off, as it passes across the 96 THE HEAD AND NECK. space, its submental branch ; but the deep part of the gland, passing beneath the border of the mylo-hvoid muscle, may be left undisturbed at present. Also disappearing beneath the border of the mylo-hyoid muscle, not far from the hyoid bone, is the trunk of the hypoglossal nerve; and by following it backwards a little way, there will be reached its branch to the thyro-hyoid muscle, and about half an inch further back the descending branch (descendens noni), which is to be completely dissected out to its distribution, and to have its connections with the cervical plexus followed up. The thyro-hyoid muscle can be dissected out by raising the sterno-hyoid from its surface without dividing it, and along the line of contact of the attachments of the sterno-thyroid and thyro- hyoid muscles the external laryngeal branch of the superior laryngeal nerve is to be found, and it should be followed to its destination in the crico-thyroid muscle. This muscle, with its fellow, and the crico- thyroid membrane, which the pair of muscles partially cover, together with a small twig of the superior thyroid artery directed across the membrane, may be studied at once. The sheath of the common carotid artery and inter- nal jugular vein, where those vessels are crossed by the upper border of the anterior belly of the omo- hyoid muscle, should now be opened, the position of the artery, vein and pneumo-gastric nerve noted, and the artery followed up so as to display the external and internal carotid arteries as far as the stage of the dissection permits. The veins will be followed at the same time, and the communication between the tributaries of the external and internal jugular by THE HEAD AND NECK. 97 means of the facial communicating is to be noted ; after which it may be convenient to divide the ex- ternal jugular. Also, behind the sheath of the great vessels, the cervical cord of the sympathetic nerve will be seen ; but it may be advisable to leave its careful dissection to a later period. The first branch of the external carotid artery to be followed is the superior thyroid. Its offset to the sterno-mastoid mus- cle sometimes comes off separately from the main trunk; another offset, the superior laryngeal, will be seen piercing the thyro-hyoid membrane; and pierc- ing along with it is the superior laryngeal nerve, which may be traced back towards the pneumo- gastric. The other offsets of the superior thyroid artery, namely, the inferior hyoid and the crico-thyroid, having been shown, the termination of the artery in the thyroid body is to be exhibited, and the thyroid body should be dissected fully out, so as to show the whole lateral lobe, the termination of the inferior thyroid artery, and the superior and middle thyroid veins. The lingual artery at present can be followed no further than the point where it becomes concealed by passing beneath the hyo-glossus muscle. Imme- diately above it is the facial artery, whose first two branches, the ascending palatine and tonsillar, can now be displayed at their origins. The ascending pharyngeal branch of the external carotid may also be shown at its origin by raising the trunk. Coming off' from the external carotid behind are the occipital and posterior auricular; the occipital, crossed by the hypoglossal nerve, is to be traced upwards, and the posterior auricular can be followed to its distribution. 98 THE HEAD AND NECK. 8. Deep Dissection of the Root of the Neck.— The sterno-cleido-mastoid muscle is to be divided, and its attachments are to be thoroughly dissected out. On the fourth day, after the subject has been placed on its back, the clavicle having been divided by the dissector of the arm (or removal at the sterno-clavi- cular articulation, if it has been so agreed on), a view is to be obtained of the passage of the brachial 'plexus from the neck into the axilla. From the brachial plexus will be seen given off the following branches above the clavicle, besides the phrenic and the nerve to the subclavius muscle already pre- served :—from the back of the cord formed by union of the anterior divisions of the fifth and sixth spinal nerves, the subscapular nerve; from the same two trunks before they join, the posterior thoracic nerve (external respiratory nerve of Bell) destined for the serratus magnus muscle; and from the back part of the fifth, the branch for the rhomboid muscles. The first part of the subclavian artery, internal to the scalenus anticus muscle, now demands attention ; and the arrangement of this, as well as the lower part of the common carotid artery, is to be compared on the right and left sides of the body. The vagus nerve is to be followed down ; and on the right side, after crossing the subclavian artery, it will be seen to give off its recurrent laryngeal branch. On both sides the recurrent laryngeal nerve will be found passing up in the angle between the trachea and oesophagus. One or two branches of the sympathetic may pass in front of the right subclavian artery, and are to be preserved ; but they can be better followed at a later stage. Three branches of the subclavian 99 THE HEAD AND NECK. artery appear prominently, one directed downwards, namely, the internal mammary, and the other two upwards, namely, the vertebral and the thyroid axis. The three branches of the thyroid axis, namely, the inferior thyroid, the transverse cervical, and the supra- scapular, have already been seen in their distribu- tion ; their continuity will now he displayed; and the ascending cervical branch of the inferior thyroid artery will be traced upwards in the line of contact of the scalenus anticus and the rectus capitis anticus major. To see the superior intercostal artery, the sub- clavian must be pulled a little forward, as the origin of this branch is on its posterior aspect, where it begins to be crossed by scalenus anticus; it enters immediately into the chest; but before doing so, it is usually the source of the deep cervical, which passes back below the transverse process of the seventh cervical vertebra. 9. The Face.—It is sometimes deemed desirable to devote one side of the face to the study of the muscles, and the other to the vessels and nerves. There is, however, no real difficulty in making a tolerably complete dissection of all the structures on both sides. To display the frontal region, a mesial incision may be made from the root of the nose to the vertex. It will be convenient then to make another incision outward from the middle line to the inner canthus of the eye, and carry it round by the margins of the eyelids. This will allow the very superficial orbicu- laris palpebrarum muscle to be dissected out; and the tendo oculi at its inner part is to be studied, espe- cially its relation to the nasal duct. The integu- 100 THE HEAD AND NECK. ment of the forehead, as far back as the ear, may then be reflected. Hear the middle line will he found the supratrochlear branch of the ophthalmic nerve, and frontal branch of the ophthalmic artery ; and further outwards, ascending from the supra- orbital notch, the supraorbital branch of the same nerve and the corresponding branch of the ophthal- mic artery. Extending upwards from under cover of the orbicularis palpebrarum is the frontalis muscle, or frontal belly of the occipitofrontalis lost in aponeu- rosis extending over the cranium ; and its innermost fibres are prolonged downwards on the nose to form the pyramidalis nasi. On reflecting the frontalis the corrugator supercilii will come into view attached to the inner end of the superciliary ridge and extending upwards and outwards. Farther out, on the temporal region, will be found the ramifications of the tem- poral artery with the branches of the auriculo-tem- poral division of the inferior maxillary nerve, and in front of this the uppermost branch of the facial nerve, emerging from underneath the parotid gland and directed towards the forehead and angle of the eye- lids. Also at this time the attrahens and attollens aurem muscles, in front of and above the ear, are to be dissected, if not already seen with the dissection of the back of the scalp. If the incision above the ear he now prolonged downwards in front of it to join the dissection in the neck, the remaining integument of the face may he removed from behind forwards toward the middle line. The outline of the parotid gland prolonged a little over the jaw, with the duct (Stenson’s) extend- ing forwards from it to enter the mouth, is to be THE HEAD AND NECK. 101 brought into view; also the little outlying portion of the gland termed socia parotidis, and the trans- verse facial branch of the temporal artery above the duct, and the various remaining trunks of the facial nerve issuing from beneath the anterior border of the gland, and diverging as they pass forward; also the minute malar branch of the superior maxillary nerve emerging from a foramen on the front of the malar bone. The continuation of the platysma myoides is to be followed over the jaw, and its posterior tibres may be traced to the angle of the mouth, forming the risorius muscle of Santorini. Two muscular slips, the zygomaticus major and minor, are next to be ex- hibited, descending from the malar prominence to the angle of the mouth; and internal to them, aris- ing beneath the orbit and crossed by the facial ar- tery is the levator proprius labii superions, with the outer border of which the zygomaticus minor is usually connected. More internally, descending on the side of the nose, is the levator communis labii su- perioris alceque nasi; and on the ridge of the nose is the terminal twig of the nasal branch of the fifth nerve, emerging between the bone and cartilage; while lower down is the very small depressor aloe nasi, arising from the inferior fossa and inserted into the septum and back part of the ala of the nose. The course of the main trunks of the facial artery and vein is to be traced from their appearance on the face in front of the masseter muscle to their ter- mination in the angular artery and vein internal to the orbit; and the lateral nasal branch of the artery will also be seen. Two deeper muscles and a nerve 102 THE HEAD AND NECK. are now to be displayed, to a certain extent, under cover of the levator proprius labii superioris. The nerve, the infraorbital, emerges from the canal of the same name; it is the terminal part of the second division of the fifth nerve, and sends large branches to the upper lip. The muscles arise from the canine fossa, and are the levator anguli oris directed down- wards and outwards, and the compressor naris widen- ing as it extends inwards on the nose. The buc- cinator, the flat muscle which supports the mucous membrane of the mouth between the upper and lower jaws, is now to be cleaned ; and the pad of fat between its back part and the masseter muscle is to be taken away; and on the surface of the buccina- tor, when the facial artery is small, there may some- times be found an enlarged buccal branch of the internal maxillary. Below the mouth the depressor anguli oris will be seen extending directly downwards; and internal to it, slightly concealed by it, the fibres of the flat depressor labii inferior is pass upwards and inwards, extending to the middle line. The remaining mus- cle of this region, the levator menti, cannot be seen to advantage except by a mesial incision, when its fibres will be seen arising together from the incisor fossa of the lower jaw, and spreading downwards and towards the surface. The depressor labii is to be divided, and beneath it there will be seen emerg- ing from the mental foramen the mental branch of the inferior dental artery and nerve, the artery a branch of the internal maxillary, and the nerve a branch of the third division of the fifth. Beneath the depressor anguli oris, and anastomosing with THE HEAD AND NECK. 103 the mental artery, is the inferior labial branch of the facial. The lips ought now to be everted as much as pos- sible, and, if necessary, held with hooks, and the mucous membrane should be dissected off, so as to show the buccal glands like small lentils, and the deep surface of the orbicularis oris muscle. Being the deepest of the muscles of the oral orifice, the orbicularis is best dissected in this manner, which allows also the attachment of some of its fibres to the upper and lower jaws to be seen, and the coro- nary branches of the facial artery. Lastly, the cartilages of the nose should be dissected, so as to display the form of the alar cartilages and their dis- tinctness from the triangular and, septal cartilages. 10. Temporal and Zygomatic Region.—Let the branches of the facial nerve be traced back through the parotid gland, and the main trunk fol- lowed up to the stylo-mastoid foramen. The two lit- tle branches given off at that point, and supplying the stylo-hyoid muscle and the posterior belly of the digastric should also he found. The parotid gland is then to be removed ; its intimate connection with the terminal part of the external carotid, and the origins of the internal maxillary and temporal arte- ries, will, in doing this, be noted, as well as its rela- tions to the part of the cervical fascia known as the stylo-maxillary ligament and to muscles. The temporal fascia is now to be laid bare, and an incision is to be made along the upper border of the zygoma, so as to show that the temporal fascia is divided here into two layers with fat between them, among which lies the temporal branch of the supe- 104 THE HEAD AND NECK. rior maxillary nerve. The fascia is then to be com- pletely divided, so as to lay bare the temporal mus- cle. The masseter muscle is to be properly cleaned, and its artery and nerve may be found as they emerge from the sigmoid notch of the lower jaw and enter its upper and back part, where a portion of the deep division of the muscle is left uncovered by the superficial. The zygomatic arch is to he divided with the bone nippers, as far forwards and as far back as possible, namely, in front and behind the origin of the mas- seter, and that muscle is to be reflected downwards and separated from the greater part of the ramus of the jaw, so as to show the extent of its attach- ments. The surface of the temporal muscle is then to be examined. The handle of the scalpel is to be passed in beneath the attachment of the temporal muscle to the coronoid process, so as to make sure of separating from its deep surface the buccal branch of nerve; and by means of two cuts with the bone nippers, one directed downwards from the sigmoid notch, and the other backwards from the lower part of the anterior border of the ramus, the coronoid process and forepart of the ramus are to be detached. The temporal muscle can then be reflected upwards, and what is known as the pterygoid space will be brought into view, and may be further exposed by clipping away all but the posterior border of the ramus of the jaw. On cleaning away the adipose tissue, the external 'pterygoid muscle will be found occupying the zygo- matic fossa, and directed back to the neck of the jaw ; and on its surface the internal maxillary artery THE HEAD AND NECK. 105 lies in its course from the parotid region, where it has been seen arising, till where it clips between the heads of the external pterygoid muscle into the pterygo-maxillary fossa. As it comes forward be- low the insertion of the muscle, the artery gives off the middle meningeal branch upwards and the infe- rior dental in a downward direction, and rests on a strong membrane descending from the spinous pro- cess of the sphenoid bone to the sharp edge of the opening of the inferior dental canal, namely, the structure known as the internal lateral ligament of the temporo-maxillary articulation. Further for- wards the artery gives off muscular branches, namely, the deep temporal, pterygoid, and masseteric ; and these are to be exhibited. Also in this space are to be seen various branches of the inferior max- illary or third division of the fifth nerve; three of these appear above the external pterygoid muscle, namely, the masseteric already identified, and an an- terior and posterior deep temporal to the temporal muscle; piercing the external pterygoid is the buccal nerve already alluded to, destined to supply the mu- cous membrane internal to the buccinator muscle; and appearing beneath the external pterygoid are two larger trunks, the anterior of which is the gus- tatory or lingual branch, while the posterior is the inferior dental, and is seen to enter the inferior den- tal canal, and, before doing so, to give off the mylo- hyoid branch, the termination of which has been already seen. Subjacent to these trunks the internal pterygoid muscle is seen emerging from beneath the external pterygoid, and passing downwards and backwards to the angle of the jaw. The course of 106 THE HEAD AND NECK. the inferior dental canal may be laid open with the nippers, so as to display the nerves and arteries going to the teeth. The remaining part of the ramus of the jaw is now to bo divided, and the temporo-maxillary articula- tion is to be studied. This cannot be done perfectly; for to study the whole anatomy and movements of this articulation it is necessary to devote the head of a young adult subject specially to the purpose. But the external lateral ligament and the capsule and inter- articular cartilage can be seen, and also the circum- stance that the latter glides backwards and forwards with the condyle of the lower jaw. In disarticulat- ing the joint, care is to be taken to keep the knife close to the capsule, so as not to injure the auriculo- temporal nerve. The external pterygoid muscle may then he reflected forwards, and its nerve may be found, after which the muscle may he altogether removed. This allows the auriculo-temporal nerve to he traced out from its origin from the inferior maxillary trunk; also the chorda-tympani joining the gustatory nerve at an acute angle from behind, and the middle meningeal artery passing up to the fora- men spinosum, and giving off the small meningeal branch which enters by the foramen spinosum. The pterygo-maxillary ligament separating the buccinator muscle from the superior constrictor should also be studied. 11. The Sublingual Region.—The tip of the tongue should be laid hold of and pulled forwards; and it may be found convenient to retain it in that position by means of a stitch attached to the nasal septum. The anterior belly of the digastric muscle THE HEAD AND NECK. 107 is then to be divided, and the lower jaw is to he sawn through near the symphysis. The mylo-hyoid mus- cle is to be divided by an incision near its maxillary attachment; the divided portion of the jaw is to be turned upwards, and the parts beneath dissected. In the forepart of the dissection will be seen the deep part of the submaxillary gland, with the duct of the gland (Wharton’s duct) passing forwards to the lower part of the fraenum of the tongue. Close to this, ad- herent to the mucous membrane of the mouth is the sublingual gland, about the size of an almond, with ducts too minute to be studied without making a special dissection (duds of Hivini), some of them joining the submaxillary duct, and others opening independently; and crossing the submaxillary duct is the gustatory nerve, whose distribution along the side of the tongue is to be followed; and with the lower border of which, as it lies close to the sub- maxillary gland, is connected the minute submaxil- lary ganglion, giving branches to the gland. A branch passing from the nerve to this ganglion can be traced into continuity with the chorda tympani. Further, in the forepart of the dissection, beneath the mylo-hyoid is the genio-hyoid muscle, and beneath the genio-hyoid is the inferior border of the genio- glossus, the back part of whose lingual attachment is still hid by the hyo-glossus ; and crossing the lower part of the hyo-glossus to enter the genio-glossus is the hypoglossal nerve. Reaching the tongue from behind, and decussating with the upper attachment of the hyo-glossus is the stylo-glossus muscle; diverg- ing from the stylo-glossus in a downward direction is the stylo-pharyngeus muscle; and curving forwards 108 THE HEAD AND NECK. from under cover of that muscle is the glosso-pharyn- geal nerve. On dividing the hyo-glossus muscle, the lingual artery can be followed forwards, giving off the superior hyoid, the dorsal artery of the tongue, and the sublingual branch, and ending in the ranine artery to the tip of the tongue. In front of the place where the gustatory nerve descends into the sublingual region, the attachment of the middle con- strictor of the pharynx to the jaw is seen. When this dissection has been finished, the fastening of the tip of the tongue should be loosened, and the tongue returned to its place, that the relations of parts to the floor of the mouth in their ordinary position may be studied. 12. Parts within the Cranium.—The head is to be well raised with blocks, so as to bring the interior of the base of the skull conveniently into view. The place at which each cranial nerve pierces the dura mater is to be noted, and also the attachments of the divided falx cerebri and tentorium cerebelli, and the mesial process of dura mater beneath the tentorium, called falx cerebelli. The superior longitudinal sinus, along the upper border of the falx cerebri, already opened in part of its extent, is to be followed down to the level of the tentorium, where it ends in the torcular Herophili and divides into the two lateral sinuses. Along the inferior border of the falx cerebri is the inferior longitudinal sinus, which has more the character of a vein than of a sinus. On reaching the tentorium this sinus is joined by the veins of Galen, which were cut across in removing the brain; and the blood from these two sources flows to the torcular along the straight sinus in the angle of union of the THE HEAD AND NECK. 109 falx cerebri with the tentorium. In the falx cerebelli will be found the occipital sinus, also leading into the torcular Ilerophili. The lateral sinuses are to be laid open in their whole course down to the jugular fora- men; and there the commencement of the jugular vein is to be seen with the three parts of the eighth nerve internal to it, and the inferior petrosal sinus running along the occipital border of the petrous bone and separating the glossopharyngeal nerve from the pneumogastric and spinal accessory as it falls into the jugular vein. Along the free border of the petrous bone the superior petrosal sinus is to be laid open; and, between the two superior petrosal sinuses, across the basilar process of the occipital bone, is the transverse sinus. An incision is now to be carried from a position immediately outside the point of exit of the third nerve, backwards and then out- wards, to that of the fifth, and is to be prolonged a little way forward and outward, and on raising the flap of dura mater so made, the cavernus sinus will be brought into view ; and by incisions round the opening where the infundibulum descended to the pituitary body, tbe circular sinus uniting the two cavernous sinuses will be laid open. The positions in the cavernous sinus of the third, fourth, sixth, and ophthalmic division of the fifth nerve and the internal carotid artery are to be observed ; and the dura mater should be dissected from the other two divisions of the fifth nerve, and the trunk of the nerve should be raised so as to get a complete view of the Gasserian ganglion and of the motor root of the nerve passing under the ganglion to join the third or inferior max- illary division ; but the artery should not be much 110 THE HEAD AND NECK. interfered with, if the carotid and cavernous plexuses of the sympathetic are to be afterwards sought; and, indeed, the best plan is to leave the sinus on one side uninjured for that dissection. The pituitary body may be removed from the sella turcica and examined. By stripping the dura mater from the bone, the trunk of the middle meningeal, after entering the skull, may be brought into view, and in well-injected subjects it may be possible to see the branch to the hiatus Fallopii, the small meningeal branch entering by the foramen ovale, and the anterior meningeal artery en- tering by the side of the cribriform plate from the ethmoidal artery, the posterior meningeal branch of the occipital artery, entering by the jugular foramen, and miningeal branches of the vertebral artery. 13. The Orbit.—The frontal bone should be di- vided with the saw, either vertically or in a direction downwards and outwards, so as to open into the orbit near its inner side, immediately external to the fovea trochlearis. Another saw-cut should be made through the side of the skull, downwards and forwards, to the sphenoidal fissures; the ascending process of the malar bone should be divided with the bone-nippers; the piece of bone between the saw-cuts is then to he separated by a smart blow of the mallet and turned forwards or removed without injury to the facial structures on its surface; and the unroofing of the orbit, hack to the cavernous sinus, should be com- pleted by further use of the bone-nippers. The dura mater investing the contents of the orbit is then to be slit open, and the frontal branch of the ophthalmic nerve will be seen passing forwards and dividing into the supra trochlear and supra-orbital, which may be TIIE HEAD AND NECK. followed into continuity with the facial dissection. Also, passing forwards in the middle will be seen the levator palpebrce muscle, going forwards to the carti- lage of the upper lid, and the superior rectus muscle of the eyeball immediately below it. A little internal to this is the superior oblique muscle, which is to be followed forwards to its pulley at the fovea trochlearis of the frontal bone, and is to be traced thence to the eyeball, blear the back part of this muscle on its upper surface the fourth nerve will be seen entering it, and this is to be traced back into continuity with the dissection in the cavernous sinus. Also, the frontal nerve is to be traced backwards, when it will be found, at the back of the orbit, to give off a smaller branch, the lachrymal, which is to be traced to the lachrymal gland at the upper and outer part of the eye, and will be found to send branches forwards to the outer half of the eyelids. A quantity of fat may now be removed most effectually and rapidly by moving the scalpel back- wards and forwards with its edge directed to one side, so as to push the fat with the flat of the blade, and isolate it from the important structures lying more or less longitudinally. Crossing the optic nerve will be seen the ophthalmic artery giving off the lachrymal and supra-orbital at the back of the orbit. As it crosses the nerve, it gives off a series of minute branches, the central artery of the retina and the ciliary arteries; further forwards it sends ethmoidal branches into the anterior and posterior internal orbital fora- mina and branches to the muscles; and in front it ends in palpebral, nasal, and frontal branches. The external rectus muscle is to be thoroughly exposed so 112 THE HEAD AND NECK. as to show its two heads of origin; and between these are to be found the other nervous trunks enter- ing the orbit, namely, in series from above down- wards, the upper division of the third nerve, the nasal branch of the ophthalmic, the lower division of the third, and the sixth nerve. On the outer side of the optic nerve the lenticxdar ganglion is to be found with its long root from the nasal nerve, as well as a branch from the sympathetic, entering it from be- hind, and its short root from the inferior division of the third nerve coming up from below, while its branches of distribution extend forwards and pierce the sclerotic. The nasal nerve is to be traced for- wards to the anterior internal orbital foramen by which it leaves the orbit, and the infra-trochlear branch which it gives off in its course is to be fol- lowed forward to the lower eyelid and side of the nose. The third nerve is also to he traced, its upper division to the upper and inner recti and the levator palpebrse, its lower division to the inferior rectus and inferior oblique; and the sixth nerve is to be followed into the external rectus muscle. The inferior oblique muscle is best brought into view by dividing the conjunctiva below the eyeball, and seeking for the muscle at its origin at the inner part of the orbit, near its margin. There remain still for examination the lachrymal apparatus, the inner surface of the eyelids, and the tensor tarsi muscle. The caruncidce, 'plica semilunaris, and puncta lachrymalia should he looked at in the living subject; and after that bristles may be passed into the puncta on the dead subject, and an effort made to follow the canaliculi. The levator palpebrse 113 THE HEAD AND NECK. muscle is then to be divided, and the orbicularis pal- pebrarum and the eyelids should be raised from their connections above, below, and on the outside, and turned over towards the nose. By this means the tarsal conjunctiva, with the outlines of the Meibomian glands and subjacent tarsal cartilages visible through it, is brought into view, and the deep surface of the inner part of the orbicularis muscle can he dissected so as to display the fibres behind the tendo oculi and the extension over the lachrymal sac constituting the tensor tarsi. The lachrymal sac may be laid open and the entrance of canaliculi into it exhibited ; and a probe may be passed down to test the direction and width of the nasal duct; or the catheterization of the duct from the nose may be practised according to the surgical rules ; hut on one side the duct should be left uninjured for future examination. 14. Deep Dissections of Nerves and the Internal Ear.—The contents of the orbit having been removed, the foramen rotundum and infra- orbital canal are to he laid open, to exhibit the superior maxillary nerve and its branches. Opposite the spheno-maxi llary fossa it gives off the temporo- malar branch and sends down two communicating branches to MeckeVs ganglion ; immediately in front of these the two posterior dental branches will be found descending on the tuberosity of the upper jawbone, while in the forepart of the infra-orbital canal is given off the anterior dental branch. The outer part of the orbital floor may now be removed entirely, and the tuberosity of the superior maxillary fossa may he nipped away with the bone-nippers till the anterior wall of the spheno-maxillary fossa is 114 THE HEAD AND NECK. removed. There will then be obtained a view of the spheno maxilliary or Meckel's ganglion, with the nasal and nasopalatine branches passing through the spheno-palatine foramen, the three palatine branches, one of them much larger than the others, extending downwards, and the Vidian nerve, with the minute branch termed pharyngeal, passing backwards. Also the internal maxillary artery, ending in posterior dental, infra-orbital,palatal, Vidian, and nasal branches, will be seen. The side of the skull should now he removed down to the level of the petrous bone, the portion of the sphenoid hone external to the foramen ovale may be taken away, and the Vidian canal may be laid open, so as to follow the Vidian nerve into the great superficial petrosal. By breaking open the foramen ovale, the inferior maxillary can be seen from its origin ; its branch to the internal pterygoid will be seen to reach that muscle from behind, and at the upper part of that branch on the deep side of the parent trunk will be found the otic ganglion, connected also with the auriculo-temporal nerve. In this dissection the Eustachiaji tube is within view, and can be still more fully displayed in that part of its cartilaginous extent which is close to the base of the skull, by removing the thin lamina of the great wing of the sphenoid bone internal to the foramen ovale. The branches of the otic ganglion can then be seen, one backwards to the tensor tympani, which is a small muscle lying along the Eustachian tube, and the other downwards to the tensor or circumfiezus palati, which muscle is seen arising in part from the lower border of the cartilage of the tube. On one THE HEAD AND NECK. 115 side, however, it is well to refrain from this dissec- tion, in order that at a later period the ganglion may be seen from the deep aspect. Proceeding now to the dissection of the ear, the pinna may be first dissected by removal of the integu- ment, so as to show the cartilage and muscles. On the foremost part of the helix is its greater muscle, and below this, at its extremity, dipping into the concha, is its smaller muscle. On the outside of the tragus and antitragus are the two muscles which take name from those eminences; while on the back of the pinna are two small muscles, one, the trans- verse, stretching across the groove corresponding to the antihelix, and the other, the oblique, across the groove corresponding to its inferior division. The pointed posterior extremity of the helix, the absence of cartilage from the lobule, and the manner in which the cartilage is folded round so as to form the outer part of the external auditory canal, also the fissures of Santorini, are all to be exhibited. The wall of the cranium being now sawn down to the level of the petrous part of the temporal bone, with the nippers, the osseous part of the auditory canal is to be laid open, care being taken not to injure the membrana tympani; the course of the tensor tympani muscle is also to be followed back- wards, and the tympanic cavity gently unroofed. With a little nicety, the deep part of the Glasserian fissure can also be opened, so as expose in its con- tinuity the chorda tympani, and show the attach- ment of the long process of the malleus. The action of the tensor tympani muscle can now be studied, and the arrangement of the malleus, incus, and stapes ; 116 THE HEAD AND NECK. also the tendon of the stapedius muscle will be seen passing forwards through the perforation of the pyramid to the neck of the stapes. When the tympanum has been studied, the general arrangement of the labyrinth should be examined. A full view of this part can only be obtained in spe- cimens specially prepared ; but with a few judicious applications of the bone-nippers, beginning by laying open the internal auditory meatus, the cochlea may be seen to lie with its base at the forepart of the cribriform plate, and the cavity of the vestibule opposite the hinder part of that plate, while the semi- circular canals can be seen in section. In making this dissection, the first care should be to follow the portio dura of the seventh nerve to the place where it turns downwards, and to show the great superficial petrosal nerve joining it; and in doing this the cochlea and vestibule will be more or less fully exposed. Afterwards, the descending part of the aquseductus Fallopii may be laid open, and at the same time the muscular belly of the stapedius muscle, which lies close to the facial nerve, may be exposed, as also the origin of the chorda tympani from the facial nerve. The styloid process should now be nipped across, and, together with the muscles attached to it, should be turned forwards; the upper parts of the glosso- pharyngeal, vagus, and spinal accessory nerves should be dissected out, and the pharyngeal branch of the vagus should be traced from its origin to its destina- tion. The remaining portion of the temporal bone bounding the jugular fossa should be separated and carefully raised, and in doing this it is possible to 117 THE HEAD AND NECK. find the auricular branch of the vagus (Arnold's) entering the bone; and the tympanic branch of the glasso-pharyngeal nerve {Jacobson's) may possibly be seen entering the spiculum between the jugular fossa and carotid canal. The carotid canal should be fully laid open so as to expose the passage of the eighth nerve out of the cranium, and the connections of its parts will then be seen ; also the petrous and jugular ganglia of the glosso-pharyngeal nerve, and the ganglia of the root and trunk of the vagus. The uppermost ganglion of the sympathetic can now also be dissected out. Its connections upwards should be traced along the internal carotid artery into the carotid and cavernous plexus, also its communications with the four upper cervical nerves, and its cardiac branch. Tracing the sympathetic cord downwards, its middle and lower cervical ganglia in the lower part of the neck, their connection respectively with the fifth and sixth and with the seventh and eighth spinal nerves, and their cardiac branches are all to be shown. 15. Pharynx, Larynx, Tongue, and Nares.— The main trunks of the bloodvessels having been removed, the trachea and oesophagus are to be divided at the root of the neck, and the pharynx is to be raised from the prevertebral muscles, and followed up to the base of the skull. An occipital ligament of the pharynx will be seen running back to the tubercle on the basilar process of the occipital bone, and is to be severed. By means of the chisel and mallet the skull is to be divided so as to separate the part to which the pharynx is attached from the hinder part; and if on one side the petrous part of the temporal bone still remains, the section should 118 THE HEAD AND NECK. be made to pass behind it. The pharnyx should now be distended with tow; the glosso-pharyngeal nerve, the pharyngeal branch of the vagus, and the superior and recurrent la?'yngeal nerves, together with the laryngeal and ascending pharyngeal arteries, and pala- tal and tonsillar branches of the facial, should be fol- lowed as far as practicable, and the superior, middle, and inferior constrictor muscles of the pharynx, with the longit udinal and circular fibres of the oesophagus, should be displayed. Also the relations of the upper border of the superior constrictor to the levator and tensor palati are to be shown. After the dissection of the outside of the pharynx has been completed, the interior is to be brought into view by an incision extending down the middle, and another carried transversely close to the skull; the posterior nares, the pillars of the fauces, with the tonsils between them, the glottis, the oesophagus, and the Eustachian tubes opening above the soft palate, can then be studied. The muscles of the soft palate are then to be dissected. First, the view of the levator and tensor palati should be completed. The relation of the levator to the membranous floor of the Eustachian tube will be seen, and the student can judge for himself if there be any possibility that the extremity of that tube can be open when the muscle is swollen by contraction. Also the course of the tendon of the tensor or circumjlexus palati round the liamular process, and its insertion in part into the hard palate should be seen. From the extremity of the cartilage of the Eustachian tube the few fibres termed salpingo pharyngeus will be seen to descend when present, and running down the uvula the pair 119 THE HEAD AND NECK. of m uscles named azygos. If the palate and tongue be now pulled in opposite directions, and the wall of the pharynx kept on the stretch with pins, the parts will be in the position most favorable for the display of the two muscles on each side descending from the palate, namely, the palato-glossus in front of the ton- sil, and the palato-pharyngeus spreading out behind to the middle line of the pharynx. The larynx and tongue are now to be separated from the parts above, and on the surface of the tongue the three kinds of papillae, namely, filiform, fungi- form, and cireumvallate, are to be studied, especially the Y-shaped arrangement of the cireumvallate. The extrinsic muscles of the tongue should be dis- sected up as far as possible, and the intrinsic mus- cles then examined. Between the genio glossus and hyo-glossus will be found the longitudinal muscle, the inferior linguolis, and by removal of the mucous membrane of the dorsum, the superior lingualis. The vertical and transverse sets of muscular fibres, as well as the terminal arrangement of the fibres of the genio-glossus, are best exhibited by thin transverse sections held up against the light. The aperture of the glottis, the arrangement of the epiglottis, and, so far as can be seen without dissection, the vocal cords having been seen, the mucous membrane is to be re- moved from the back of the larnyx, and the superior and inferior laryngeal nerves should be dissected out, so as to exhibit the muscular branches of the latter and the communication of the two nerves under cover of the thyroid cartilage. On the back of the cricoid cartilage will be seen the two posterior crico- arytenoid muscles; above them, on the arytenoid car- 120 THE HEAD AND NECK. tilages, the transverse fibres of the arytenoideus ; and, on its surface, the decussate oblique bands of the aryteno-epiglottidei muscles. On further removing the mucous membrane the cornicula laryngis (cartilages of Santorini) will be seen surmounting the arytenoid cartilages, and the cuneiform cartilages of Wrisberg producing a swelling in the epiglottidean fold in front of them. The form of the cartilages of the larynx is to be studied, and the crico-arytenoid and crico-thyroid articulations and the movements which they permit. The thyro-hyoid membrane and late- ral ligaments are also to be examined, and the liyoid bone and remains of the tongue may then be re- moved. The epiglottis may be dissected out so as to show its forms and connections at the base. To see the remaining muscles of the larnyx, the greater part of one-half of the thyroid cartilage may be removed by a vertical incision near the middle line, carried down to about a line from the lower border, and another directed backwards from this, when the upper attachment of the crico-thyroid muscle will be seen more fully. The fibres of the lateral crico-aryte- noid muscle will be observed converging to the outer angle of the arytenoid cartilage, and above it pass- ing forwards from the base of the same cartilage, the thyro-arytenoid muscle occupying the fold in which the vocal cord is situated. If now the mucous membrane above the true vocal cord on the side so far dissected be removed, a good view of the folds of the true and false vocal cords of the opposite side, and the ventricle between them will be obtained ; the saccule extending from the forepart of the ventricle may be examined ; and the action of the vocal cords, THE HEAD AND NECK. 121 the arytenoid cartilages and the different muscles can be studied. The nasal fossa; are now to be examined; and for this purpose the cribriform plate and the portions of the frontal and sphenoid bones in front and behind it should be sawn close to the middle line on the side least dissected; the saw should then be with- drawn, and the palate should be sawn through on the same side from below. The septum of the nose should be denuded of its mucous membrane and the naso-palatine nerve should be looked for in its course from Meckel’s ganglion to the anterior palatine fora- men; and in a favorable specimen it, as well as the accompanying branch of the internal maxillary ar- tery, may be traced to the palate, and the communi- cation of the nerves of opposite sides called ganglion of Cotunnius may be shown. The three meatus of the nose are to be next examined. The relations of the upper meatus to the ethmoidal cells and sphenoidal sinus, the opening of the maxillary antrum*into the middle meatus, and the communication of that mea- tus with the frontal sinus through the infundibu- lum in its forepart should be looked at; also the direction, in the inferior meatus, which a probe or cannula must take to reach the nasal duct and the Eustachian tube. The inferior turbinated bone should then be in part removed to exhibit the character of the orifice of the nasal duct. If the parts be in good condition an additional dissection of the otic ganglion from the deep aspect may now be made. The pterygo-maxillary fossa should then be opened into by removal of the as- cending plate of the palate-bone piecemeal with the 122 THE HEAD AND NECK. aid of bone-nippers and scissors; and the descending branches of Meekers ganglion should be followed to their distribution in the palate. The large palatine branch will be found descending with the superior or descending palatine artery, a branch of the internal maxillary artery; while the small or posterior pala- tine nerve and the external palatine occupy the small canals of the same names. A dissection may now be made, as before directed, of the remaining ear. 16. Vertebral Muscles and Articulations.— It remains for the dissector to examine the muscles attached to the vertebrae. The scaleni muscles still remain uninjured; the anterior has been already seen; and, of the fibres behind the position of the subcla- vian artery, those attached to the first rib constitute the middle, and those proceeding to the second the posterior scalenus. Hearer the middle line, in front of the vertebrae, is the rectus capitis anticus major ascending to the skull; and under cover of it the rectus capitis anticus minor; while between the recti and scaleni and the middle line is the longus colli muscle. Ascending from the transverse process of the atlas is the rectus capitus lateralis. If the muscles behind the vertebrae have not yet been dissected, they ought to be examined now ac- cording to the directions already given (p. 78). The vertebral muscles are to be cleared away, and the movements permitted between the cervical ver- tebrae examined; also the upper end of the anterior common ligament will be seen. The laminae are then to be cut across, if this has not been previously done, for the examination of the spinal cord; and it will be noticed that the ligamenta subjiava between the THE HEAD AND NECK. 123 lower vertebrae are replaced between the occipital bone, atlas, and axis by white fibrous tissue. Within the spinal canal the upper part of the posterior com,- mon ligament is seen, and connected with it the flat band from the body of the axis to the occipital bone. When this has been reflected, the transverse ligament of the atlas, with the upper and lower appendage which give it a cruciate form, will be seen ; and also the lateral odontoid or check ligaments passing out- wards to the occipital bone from the odontoid pro- cess of the axis, and between them the delicate middle odontoid ligament. The character of the movements of the articular surfaces of the atlas, axis, and occi- pital bone is then to be noticed, as well as the bursae behind and in front of the odontoid process; and the movements permitted by the articulations of the six lower cervical vertebrae should also be studied. If the parts be in a state of particularly good preser- vation, a vertical transverse section may be made through some of the vertebrae to exhibit the joints of Luschka at the sides of the intervertebral disks. 17. The Eyeball. —This organ cannot be dis- sected on the subject used for dissection of the rest of the head. A pair of ox eyes may with advantage be used for a first dissection; and the earliest oppor- tunity should be taken for a repetition on a perfectly fresh human eye. The eye of an infant is perfectly suitable. If a weak solution of bichromate of pot- ash be used, such as may be obtained by shaking a crystal for a moment in water till it gives it a straw color, and an aperture be made in the sclerotic to admit the solution into the interior, the dissection will be facilitated, and the specimen may be pre- 124 THE HEAD AND NECK. served for any length of time without loss of trans- parency of the vitreous humor. The solution may be changed for spirit without further opacity taking place than serves to exhibit the hyaloid membrane; but the outer layers of the lens are rendered opaque. In the anatomical museum of this college there are specimens prepared in this way which have remained without deterioration for upwards of nine years. A preliminary view may be obtained by making a transverse vertical section of one eye, which may be done by piercing through the sclerotic and other tunics half way back, and dividing them round about with the scissors. In the posterior part will be seen the sclerotic tinted on its deep surface with brown connective tissue, the membrana fusca; inside this, the choroid coat; internally, the retina; and between retina and choroid the pigmented hexagonal epithe- lium,1 which, in a bichromate of potash preparation, will separate in scaly patches like tinder. The retina is seen to be firmly attached at the optic pore, and from this the retinal artery branches out. In the human eye the yellow spot of Sommering (macula Intea) is seen in the axis of the eye, its yellow color con- trasting with the delicate pink of the rest of the retina; in the ox eye there is no such spot, and the 1 Without doubting the microscopic phenomena which led Max Schultze to count this epithelium as part of the retina, I still con- sider that it has a greater claim to be called the epithelium of the choroid, and venture to think that there is conclusive proof of this view in the mode of development; the structure in ques- tion and the bacillary layer of the retina being different parts of one epithelium, lining opposed surfaces of the primary optic vesicle. THE HEAD AND NECK. 125 optic pore is further removed from the axis. In the ox eye a portion of the choroid presents a bright glistening appearance from the presence of a struc- ture named tapetum, and opposite this the hexagonal epithelium is destitute of pigment; but in the human eye there is no tapetum. Iii the anterior half of the divided eyeball is seen the anterior margin of the retina, smooth in the ox, but dentated in the human subject and named ora serrata. In the axis of the eye, through the vitreous humor, is seen the crystalline lens with the aperture of the pupil in front of it, and outside of this the iris and the radiating structures named ciliary processes. The crystalline lens and vitreous humor may he allowed to drop' away from their connections, or their sepa- ration may be assisted with the handle of the scapel. The ciliary processes and hack of the iris may then be washed so as to remove from them the dense pig- ment adhering to them; the sclerotic and cornea may he everted, and the connection of the tunica media (of which the choroid is the posterior and the iris the anterior portion), with the sclerotic may be ex- amined. Between the sclerotic and choroid will be found the divided ciliary nerves derived from the lenticular ganglion. Let the connection of the iris and choroid with the sclerotic be gently broken up with the handle of the scalpel, so as to detach them from the outer coat of the eye, and at the place of connection there will be seen a white ring between choroid and iris, the ciliary muscle, and in front of this a canal opened into, the circular sinus, in front of which is a very delicate torn edge, the ligarnentum pectinatum. The iris in the ox differs from that of 126 THE HEAD AND NECK. the human subject in having a horizontally elongated pupil, and in the circular muscular fibres round the pupils being much more distinctly separated from the radiating fibres at the circumference. Sections should be made to show the passage of the sclerotic into the cornea, and the lamination of the cornea. The laminae are considerably separated when bichro- mate of potash is used. Turning now to the lens and forepart of the vitre- ous humor, there is seen a series of plications, zomde of Zinn, corresponding with the ciliary processes; and if a blowpipe or nozzle of a syringe be intro- duced beneath these plications, close to the lens, and air or coloring matter introduced, a demonstration will be had of the canal of Petit, bounded in front by the suspensory ligament. If a slight score be then made on the front of the lens, its capsule will be ruptured, the crystalline lens will fall out, and both lens and capsule may be fully examined. While one eyeball is examined in the easy way now described, on the other the tunics may be re- moved in series. For this purpose the first incision into the sclerotic should be made well forward where it is thinnest; and in carrying the cut made with the scissors round about, care must be taken not to in- jure the choroid ; and the ciliary nerves also may be preserved. A cut may then be made back to the optic nerve ; the sclerotic may be everted ; and then it may be cut away close to the optic nerve. The forepart of the sclerotic, with the cornea, may then be detached as in the former dissection, if the dis- sector chooses. The choroid is next to be removed. It can be torn away easily in shreds, the tears taking THE HEAD AND NECK. 127 a direction from before backwards determined by the course of the arterioles which constitute an import- ant part of its structure. A view will thus be obtained of the retina in its position on the surface of the vitreous humor; and on removing the retina, the vitreous humor, the lens and the transparent membranes will be obtained intact. DISSECTION OF THE THORAX. 1. The Parietes.—Before the fifth day after the subject has been placed on the back, the upper limbs should be removed by the dissectors of those parts, and then the dissection of the thorax may be com- menced. The external intercostal muscles should be displayed in as great a part of their extent as possible; and they should be dissected away from some of the intercostal spaces, so as to show the direction of the internal intercostal muscles beneath them. Also the intercostal nerves of the upper six spaces may be shown between the muscles, and with them the intercostal arteries, each with its collateral branch running along the upper border of the rib below; and the anasto- moses of these arteries with the internal mammary should be made out. On the left side the course of the internal mammary artery may be exhibited by the removal of the second and four succeeding car- tilages ; then, in order to exhibit the relations of the pericardium and pleural cavities to the thoracic walls, the corresponding costal cartilages of the other side may be divided close to the ribs, and the ribs on both sides whose cartilages have been divided may be removed, together with the subjacent pleura, back as far as can be conveniently reached in the position of the body, the sternum meanwhile remaining in- tact. The anterior border of each pleural sac can THE THORAX. 129 now be observed, as well as the extent of the interval between the borders of the two sacs, which is known as the anterior mediastinum. The lungs should also be inflated from the windpipe, so as to give an idea of the extent to which they descend between the ribs and diaphragm in inspiration. After this the ster- num is to be sawn across through the manubrium and removed, and on the side on which the cartilages are left a view will be obtained of the triangularis sterni muscle and internal mammary artery from the deep aspect; and also the articulations of the costal cartilages and sternum may be examined. Twro or three more of the ribs may be taken out of the way by separating them from their costal cartilages, and nipping them across on a level with those above them. 2. The Pleura and Parts adjacent.—The lungs are to be raised, and any fluid or other impurities sponged away from the pleural cavities. If the parietal and pulmonary layers of the pleura be any- where adherent, the adhesions are to be broken down with the fingers ; and it is important to observe that excepting only the reflections of the pleural mem- brane and the lung itself, no part of the dissection need be seriously defective on account of any amount of pleuritic adhesion or phthisical alterations; for, if only healthy chests were made use of in the dis- secting-room, the student would be badly supplied with material. The reflections of the pleural sac from the parietes to the lungs and over the pericar- dium are to be observed, and beneath the root of the lung the fold termed ligamentum latum 'pulmonis. The lungs are then to be carefully examined, both 130 THE THORAX. in the inflated and the collapsed condition. The di- vision of the right lung into three lobes, and the left into two, will be noted, as well as the form and posi- tion of the lobes; also the other points in which the lungs differ, viz., height, breadth,and form of anterior border. Passing down on each side in front of the root of the lung will be found the phrenic nerve, a branch of the fourth and fifth cervical trunks, and accompany- ing it the comes nervi phrenici, a small branch of the internal mammary artery; and on following the nerve upwards, it will be seen quite at the upper part of the chest to cross the trunk of that artery. In the upper part of the anterior mediastinum there is often found a mass of brownish-colored fat, the remains of the thymus gland; and on removal of this, the left innominate vein will come into view crossing the branches of the aortic arch and uniting with the right innominate vein to form the vena cava superior. These veins should be dissected out, to- gether with the branches joining them, viz., the inferior thyroid, internal mammary, and superior inter- costals; and also, joining the vena cava superior above the root of the right lung, the great vena azygos. The transverse part of the arch of the aorta is now also seen, with the innominate, left common carotid and left subclavian arteries coming off from it; and on lifting up and turning aside the left lung, the continuation of the arch into the descending aorta can be observed. Crossing the arch of the aorta between the origins of the left common carotid and left subclavian artery, is the left pneumogastric nerve, and internal to it the cardiac branch from the p»neu- THE THORAX. 131 mogastric in the neck, and sometimes that from the first cervical ganglion. The origin of the recuixent laryngeal branch of the left pneumogastric turning round the arch of the aorta is to be dissected out, as also the cardiac branches given off from the recurrent laryngeal; and immediately internal to this nerve will be found a tough fibrous structure connected with the concavity of the aortic arch, which is the ductus arteriosus. The main trunk of the left pneumogastric nerve is to be followed downwards, and its branches to the front of the root of the left lung [anterior 'pul- monary plexus) are to be traced; and the lung is then to be thrown forward and kept in that position with hooks, if necessary, while the course of the pneumogastric is dissected further, and the branches going to the back of the root of the lung, together with the filaments joining them from the thoracic ganglia of the sympathetic nerve to form the poste- rior pulmonary plexus, are to be brought into view. Pursuing the dissection in a forward direction, the constituents of the root of the lung are to be made plain; namely, from above downwards, the left pul- monary artery, bronchus, and left pulmonary veins, and along with these the left bronchial arteries given off from the aorta, and left bronchial vein opening usu- ally into the superior intercostal. Then, continuing the dissection backwards, the pleura is to be stripped from the aorta and from the back part of the thoracic wall, and the sympathetic ganglionic chain lying on the necks of the ribs is to be dissected out, together with the great splanchnic nerve arising by separate origins from different ganglia from about the fifth 132 THE THORAX. to about the ninth. The condition of the dissection of the abdomen will probably not allow these nerves to be displayed in the lower part hid by the con- vexity of the diaphragm, till a later period. The courses of the sympathetic branches to the lung are to be exhibited from the ganglia; and the double connection of each ganglion with the corresponding spinal nerve should also he shown. The fat and connective tissue should be cleared away from the back part of the intercostal spaces, so as to show the iutercostal nerves and arteries lying on the external intercostal muscles, and the posterior margins of the internal intercostals at some distance from the verte- brae. Also the arrangement of the intercostal veins is to be preserved, the lower veins followed into the left vena azygos, and those of the upper spaces fol- lowed so as to show whether they pour their blood into the vena azygos or left innominate vein, or both, as the case may be. The lung may then be replaced in its position. The right lung is next to he turned forwards, and the right pneumogastric nerve, lying outside the supe- rior vena cava, is to be followed downwards; its cardiac and anterior pulmonary branches are to be made out, as on the left side, and so also the poste- rior pulmonary plexus and sympathetic chain are in like manner to be dissected. The great vena azygos will be seen curving forwards above the root of the lung to open into the superior vena cava; and when the root of the lung is dissected, the points in which it differs from that of the left lung are to he observed; namely, the bronchus entering at a higher level than the artery, the bronchial vein opening into the vena 133 THE THORAX. azygos, and the usually single bronchial artery aris- ing sometimes from an intercostal vessel. Lying in loose tissue, internal to the vena azygos, will be found a slender white tube, the thoracic duct, some- times double in part of its course; and internal to this is the oesophagus. The arrangement of the in- tercostal veins entering the great vena azygos is to be exhibited, and also the left vena azygos opening into the great azygos vein on its inner side, about halfway down the thorax. The lung is then to be returned into its position. 3. The Pericardium and Heart.—The extent and relations of the fibrous layer of the pericardium having been examined from the exterior, the sac is to be opened into by an incision in its whole length, crossed by one dividing it transversely close to the diaphragm. The reflections of the serous layer are then to be examined. The positions of parts are to be observed; namely, the apex of the heart directed forwards, downwards, and to the left; the auriculo- ventricular sulcus lying obliquely, with the right side lower than the left; the anterior and posterior inter- ventricular sulcus marking the relative positions of the right and left ventricle, the right being placed below and in front of the left ventricle; the two auricular appendices, one on each side of the two arterial trunks; the pulmonary artery springing from the right ventricle, the aorta appearing on its right side, and the sulcus between them in the middle line; lastly, the positions of the veins; the superior and inferior vena cava entering the right auricle from above and below, and, at the upper and back part of 134 THE THORAX. the pericardial cavity, the 'pulmonary veins entering the left auricle from each side. The pericardium may now be dissected away from the arch of the aorta, care being taken of the cardiac nerves, and the arch is to be studied in detail. In like manner the pulmonary artery, and then the systematic and pulmonary veins successively, are to be exhibited and examined. The right and left coronary arteries are then to be dissected, the right one arising from the right sinus of Valsalva, and sending a branch along the posterior inter-ventricu- lar sulcus, the left arising from the anterior sinus of Valsalva, and giving off, at its commencement, a branch which descends in the anterior inter-ventri- cular sulcus. In close connection with these arteries will be found the coronary plexus in which the car- diac nerves ramify before they descend on the surface of the ventricles. Also, in the auriculo-ventricular sulcus is the coronary vein, which ma}7- be slit up in the part of its course beneath the left auricle, to show the pair of valves by which it is guarded at a point about an inch from its termination, where it receives the name of coronary sinus. One tributary of this vein entering it from above, the oblique vein of Marshall, is especially interesting, as being the vestige of a left superior vena cava in early foetal life. It is optional to examine the interior of the heart now, or to wait till after the removal of heart and lungs together from the thorax. The right auricle is to be laid open by means of an incision uniting the superior and inferior vena cava, and another proceeding forwards to the tip of the auricular appendage. In making the lower part THE THORAX. of the vertical incision, care is to be taken not to injure the Eustachian valve on the anterior and inner side of the orifice of the lower vena cava. Within the right auricle, the most important points to no- tice are the fossa and anmdus ovalis on the septum between the auricles, the auriculo-ventricular opening, the opening of the coronary sinus placed between the auriculo-ventricular opening and back part of the vena cava inferior, and guarded by the valve of The- besius, smaller openings of veins called foramina Thebesii, and the musculi pectinati of the anterior wall and appendix. The right ventricle may now be conveniently opened b}r an incision a little to the right of the an- terior inter-ventricular sulcus, from which another may be carried along by the inferior border of the auriculo ventricular sulcus, care being taken not to injure the anterior cusp of the tricuspid or right auriculo-ventricular valve. The convexity of the interventricular septum, the infundibular extension of the ventricle upwards to the pulmonary artery, and the way in which it falls short of the apex having been noted, the other peculiarities of this ventricle will be better studied by comparing it with the left. The left ventricle may be exposed after the same fashion as the right, by means of a longitudinal incision close to the septum, and an- other carried outwards along the base; but the lon- gitudinal incision should terminate before reaching the apex, and should be then continued transversely, so as to expose both the anterior and 'posterior mus- culus papillaris without injury. The cusps of the mitral or bicuspid valve can then be studied, together 136 TITE THORAX. with the distribution of the chorda? tcndinem of op- posed margins of cusps to their corresponding mus- culus papillaris, the mode of origin of the chordse tendineae at different levels on the backs of the cusps, and the passage up to the aorta on the right side of the right cusp. Turning then to the right ventricle, the student will be able to contrast with the mitral valve the three cusps, anterior, posterior, and mesial, of the tricuspid valve, united by a connecting fringe at the base, and having their chordae tendineae irre- gularly disposed. Also the much more copious net- work of trabeadce in the walls of the left ventricle will attract his attention. Before opening the left auricle, the inferior vena cava should he divided, and the heart turned up- wards, so as to show the position of the auricle with its posterior wall symmetrically disposed across the middle line, and the pulmonary veins opening into it from each side. This posterior wall may then be divided by an incision across its lower part, carried upwards at each extremity close to the entrance of the veins. The freedom of the whole auricle from musculi pectinati, save only in the appendix, will be seen, and some irregular depressions opposite the interauricular septum. A probe may be passed from the right auricle forwards under cover of the annulus ovalis, and in many instances will pass into the left auricle through a narrow channel, the remains of the fcetal foramen ovale. The arch of the aorta may now be cut across in the middle of its ascending part, and, while the superficial cardiac nerves are still left intact, those passing down in front of the trachea to form the THE THORAX. 137 deep plexus may be dissected fully out, the cardiac, ganglion may be found close between the aorta and pulmonary artery, and the plexus may be traced on- wards to the coronary vessels, on which the nerves have already been exposed. The pulmonary artery and veins and the vena cava superior being then divided, the heart will be removed from the body. The competency of the arterial valves, both aortic and pulmonary, may be tested by pouring water into the vessels ; and the three dilatations, or sinuses of Valsalva, opposite the three pouches of the valve in each artery, may be examined. The auricles may then be removed, note being taken of the complete absence of continuity of their muscular fibres with those of the ventricles. The auriculo-ventricular openings will then be seen lying side by side, with the aortic opening between and in front of them, and the orifice of the pulmonary artery in front of it. In the angle between the aorta and two auriculo- ventricular openings will be found a nodule of car- tilage, with fibres extending from it. Lastly, the aortic orifice and that of the pulmonary artery are to be slit open between two of the adjacent sinuses of Valsalva, so as to show the three pouches of which each semi-lunar valve consists, each with thin lunulce at the sides, and a stronger part in the centre coming to a thickened point close to the margin, called corpus Arantii. Also, in two of the aortic sinuses of Valsalva the origins of the coronary arte- ries will be seen, above the level of the segments of the valve. 4. The Air Tubes and Interior of the Lungs. ■The lungs are now to be removed by dividing the 138 THE THORAX. trachea; or if it has been decided to remove the heart and lungs together before opening the heart, the student will first divide the arch of the aorta in its ascending part, and complete the dissection of the cardiac plexus, as directed in the preceding para- graph, then divide the superior and inferior vena cava and the trachea. The bronchi are now to be dissected out. The greater size of the right bronchus and more descend- ing course of the left are to be noted, and the ar- rangement of their cartilages. The bronchial tubes are then to be followed as far as possible through the substance of the lung, and the mode of branch- ing noted, as well as the gradual change in character of the cartilages, which at first are arranged so as to keep the tubes thoroughly open, then degenerate into mere scattered nodules. The trachea should be dissected from behind ; the fibrous coat should be laid open, and beneath it will be found numerous separate little glands, which send their ducts through the subjacent muscular coat to the mucous membrane. The connection of the muscular coat with the cartilages is to be ex- hibited, and the mucous membrane is then to be divided, and its glandular orifices and longitudinal markings noted. The bronchi and succeeding tubes should be examined by slitting them open to show the mucous membrane. Sections should also be made through healthy portions of the lung, to fa- miliarize the eye with the appearance of the vessels and bronchial tubes-in section, and the framework of connective tissue between the lobules; and the 139 THE THORAX. lightness of the tissue may he tested by throwing portions into water. 5. The (Esophagus and other Parts.—The structures in the posterior mediastinum now demand further attention. The aorta and termination of the left vena azygos can be more fully displayed, the oesophagus can be properly cleaned, its curves can be seen, and the right and left pneumogastric nerves can be exhibited on it. The thoracic duct is to be followed up ; and, by an arrangement with the dissectors of the head and neck, it may be pursued round the apex of the left lung do its termination in the angle of junction of the left subclavian and left vena azygos. Then the lower part of the thoracic portion of the sympathetic chain, together with the greater and smaller splanchnic nerves, should be traced to their passage through the diaphragm ; and the diaphragm itself may be examined, so far as it can be seen from the thorax. Lastly, the articulations of the ribs and dorsal vertebras are to be dissected out. Sometimes it will happen that the dissectors of the abdomen have by this time removed the pelvis and lower lumbar vertebras, in which case all the vertebrae which re- main can be examined by the thoracic dissectors; but if that be not the case a division should be made about the level of the tenth dorsal vertebra; and in any circumstances, the tirst vertebra and costal arch should be left to the dissectors of the head and neck. In front of the vertebrae will then be seen part of the anterior common ligament and the stellate or anterior costo-vertebral ligaments. Behind, the laminae have probably been already removed, and the 'posterior 140 THE THORAX. common ligament will be seen behind the bodies of the vertebrae. The posterior costo-transverse ligaments passing from the tips of the transverse processes to the outer ridges of the tubercles of the ribs, require little dissection; and the long costo-transverse liga- ments will be seen on removal of the muscular fibres from the intervals between successive transverse pro- cesses. The movements permissible at the heads and tubercles of the ribs, as well as between the vertebrae, may then be examined, so far as the imperfect char- acter of the specimen allows ; and the vertebrae may then be separated to show the ligalnentum colli costoe between each fib and its corresponding transverse process, and also the interior of the costo-vertebral joint, with its inter articular ligament. To exhibit fully, however, the movements of the vertebrae and ribs requires a thorax and vertebral column to be devoted to the purpose; and even then it is to be re- membered that the respiratory movements cannot be fully imitated after death. DISSECTION OF THE ABDOMEN AND PELVIS. 1. The Perinseum.—If the subject be a male, at least one day after it is placed on tlie table should be devoted to the dissection of the perinseum from below. For this purpose a lithotomy staff should be passed into the bladder, and the subject should be placed in the position usual for the operation of lithotomy, either by tying the hands and feet to- gether, or, as is better, by means of a frame for the purpose, with upright spokes to hold back the lower limbs. The perinseum should then be brought to the edge of the table, and, if necessary, should be elevated by means of a block under the pelvis. Sometimes it is required to tie the penis and scrotum to the handle of the staff, but in subjects preserved in brine this is seldom necessary. An incision should he made outwards on each side from the depression in front of the anus known as the central point of the perinasum, and from the same point two backward incisions should he made so as to inclose the anus, behind which a mesial prolongation may be carried back to the coccyx. The superficial sphincter lying immediately below the integument is then to be laid bare, and the flaps of skin turned outwards. The dissector can then satisfy himself that on each side of the anus there is a 142 THE ABDOMEN AND PELVIS. hollow filled with fat, the ischio-rectal fossa, while in- front there is a firm boundary of fascia and other structures. A cut from before backwards being made down into the middle of the right fossa, it will be seen that a superficial pad of fat is separated from a deeper layer, and that in the plane of separation are the inferior haemorrhoid al vessels and the pos- terior twig of theperinceal branch of the pudic nerve, on their way to the surface. After finding and fol- lowing these structures, the walls of the fossa should be exhibited, namely, on the outside the obturator fascia, the margin of the gluteus maximus muscle behind, and internally the levator ani and coccygeus muscles covered by the anal fascia. Emerging be- tween the levator ani and coccygeus muscles, a small branch from the fourth sacral nerve will be found coming to the surface. In front, the dissector should be satisfied, at this stage of the dissection, with feel- ing the position of the staff in the membranous por- tion of the urethra, and should beware of injuring the fasciae. This dissection should be repeated on the left side of the body ; and in doing this the dis- sector will do well first to divide the fat filling the fossa, as it would be divided in the operation of lithotomy, and to note the depth to which such an incision might be carried, and feel the position of the groove of the staff between the bulb of the urethra and prostate. The mesial incision should then be prolonged forwards, and the integument re- flected from the anterior division of the perinaeum. Iii the anterior half of the perinaeum, a superficial fascia or layer of the rete adiposum will be found continuous with that over the thighs and with the 143 THE ABDOMEN AND PELVIS. contents of the ischio-rectal fossa, and beneath it a layer of membranous fascia bound down to the arch of the pubis at the sides, and dipping down to be con- nected with the margin of the triangular ligament behind. This is what is sometimes called Colles’s fascia, and is important in the history of urinary infiltrations. Before it has been much laid bare a blowpipe should be introduced underneath it, and it should be inflated so as to exhibit that the district beneath it is cut oft'alike from the hack part of the perinaeum and from the thigh, and also that on one side it is separated from the other behind the scrotum by a mesial septum, which, being imperfect in front, allows the air, after it has reached the scrotum, to pass from one side to the other. As it extends for- wards into the scrotum, this fascia will be noticed to become thicker, being continuous with the involun- tary muscular tunic called the dartos. Entering beneath this fascia from behind will he found the two anterior perinatal branches of the pudic nerve, and external to them, crossing in front of the ischial tuberosity, the inferior pudendal branch of the small sciatic nerve; also entering from behind is the peri- nceal branch of the pudic artery. These three scrotal nerves are to be followed out after division of the fascia ; and the perinseal artery will be seen to give oft’the transverse perinatal branch before passing for- wards. In the space exhibited by removal of the deep layer of superficial fascia are seen, in the mid- dle the bulb of the urethra covered over by the accele- rator-urina or bulbo-cavernosus muscle, and on each side the crus penis clothed with the fibres of the erector penis or ischio-cavernosus muscle; while be- 144 THE ABDOMEN AND PELVIS. hind, closely connected with the fascia where it dips deeply, is a thin muscular slip, the transversus peri- nod. These muscles are to be dissected out, and beneath them, when they are separated, will be seen the anterior layer of the subpubic fascia, otherwise called the triangular ligament. On division of the triangular ligament as close to the arch of the pubis as possible, and dissecting it towards the middle line, there will come into view the muscles situated between it and the deep layer of the subpubic fascia, viz. the deep Iran versusperincd, which is a small band directed outwards and for- wards from the central point of the perinaeum, and beneath it the transverse fibres of the constrictor urethra passing partly in front and partly behind the urethra. There will also be seen the artery of the bulb passing inwards from the pudic artery, and, under cover of the mesial attachment of the deep transverse muscles, a pair of small bodies, Competes glands, the slender ducts of which, in a favorable subject, may be traced forwards. On the left side, the pudic artery and nerve may now be dissected out as far as is possible in the present dissection, when the origins of the branches already exhibited will be brought into view, as well as the artery to the corpus cavernosum. The anterior edge of the levator ani muscle, which passes forwards on the deep surface of the deep layer of subpubic fascia, is now to be dissected out on both sides; and if the attachment of the superficial sphincter to the central point of the perinaeum be divided, and the rectum pushed back with the handle of the scalpel, a most instruc- tive view of the prostate gland and lowest part of THE ABDOMEN AND PELVIS. 145 the bladder as seen when separated from the rectum may be obtained. 2. The Abdominal Wall.—This dissection may be begun as soon as the subject is laid on its back. It will sometimes be found expedient to make on one side a continuous dissection of the tiat muscles throughout their whole extent, and to reserve the lower part of the abdominal wall on the other side for a special examination of the parts through which inguinal hernia may take its course; but in the directions about to be given a plan is recommended by which all the structures may be exhibited con- veniently on one side; and the intelligent dissector will be able, with the consent of his partner, to modify those directions so as to suit particular cir- cumstances. A mesial incision deviating to one side at tlie umbilicus is to be made from the lower end of the sternum to the pubis; and another, if not already made by the dissector of the arm, is to be carried transversely outwards from the upper end of this, as far as the position of the border of the latissimus dorsi muscle; while a third may be directed inwards from the anterior superior spine of the ilium. The integument is then to be removed from the lower or inguinal portion of the abdominal wall, situated below the last incision, and in the subcutaneous tissue underneath will be found two sets of branches of the femoral artery and veins, viz., the superficial circumflex iliac vessels directed upwards and out- wards, and the superficial epigastric directed upwards and inwards. These vessels course superficial to a deeper and more membranous layer of the superficial 146 THE ABDOMEN AND PELVIS. fascia, sometimes distinguished as Scarpa's fascia ; and this may be conveniently brought into view by cutting down on the subjacent aponeurosis of the external oblique muscle at the level of the transverse cutaneous incision, and raising the fascia from the aponeurosis with the handle of the scalpel, then dividing it in the middle line and continuing the separation, when it will be seen to be firmly bound down at the level of Poupart's ligament, while towards the middle line the space beneath it is continued into the labium in the female, and the scrotum in the male; a circumstance of importance, explaining why urinary infiltrations pass upwards on the abdomen, but not down into the thighs. At the lower and inner part of the portion of the aponeurosis of the external oblique muscle brought into view there is a separation in its fibres, the external, or more pro- perly, superficial abdominal ring; and emerging from this opening in the male is the spermatic cord, con- sisting of structures descending to the testicle ; while in the female the same position is occupied by the round ligament of the uterus, a structure passing down to be attached in the labium, and, except when the uterus is much enlarged, greatly smaller than the spermatic cord in the male. A little above and to the outside of the superficial abdominal ring, the terminal branch of the ilio-hypogastric nerve pierces the aponeurosis, while through the ring comes the ilio-inguinal nerve to terminate in the pubic integu- men ts. The integument may now be reflected from the rest of the abdominal wall; and the subcutaneous fat is then to be removed from the structures under- 147 THE ABDOMEN AND PELVIS. neath, so as at once to clear the aponeurotic anterior wall of the sheath of the rectus abdominis muscle, separated from that of the opposite side by the linea alba in the middle line; and in removing the fat a series of four or more anterior cutaneous branches of the lower intercostal nerves, with corresponding inter- costal vessels in company, are to be preserved and followed out from their emergence through the sheath of the rectus muscle. Further out will be found the lineal semilunaris indicating the outer margin of that sheath, and external to this the aponeurosis of the obliquus externus muscle continued, towards the side of the abdomen, into its muscular fibres, which are directed outwards and upwards. As the reflection of the fascia from the surface of those fibres is con- tinued, there will be found emerging from between them, along the side, the lateral cutaneous branches of the lower intercostal nerves; and these, being at once pursued to their distribution, will be found each to divide into an anterior and posterior branch, respectively turning forwards and backwards. Also near the crest of the ilium two trunks will be found turning down over the gluteal region, namely, the last dorsal nerve, and behind it the iliac branch of the ilio-hypogastric. These nerves having been preserved, the dissection is to be pursued further back, till the posterior border of the external oblique muscle of the abdomen is reached in the hollow outside the position of the erector spinse muscle; and the attachments of the muscle to the eight lower ribs, and their inter- digitation with origins of the latissimus dorsi and serratus magnus muscle are to be made distinct. An oblique incision is to be made through the external 148 THE ABDOMEN AND PELVIS. oblique muscle in such a manner as to separate its costal attachments from the rest of the muscle. The attachment to the crest of the ilium is then to he severed from behind forwards nearly as far as the anterior superior spine, and thence an incision is to be continued inwards, across the fibres of the apo- neurosis, to the sheath of the rectus muscle. The separated attachments of the muscle are next to be dissected out from the deep side, the remainder of the muscle is to be reflected inwards as far as it can be raised, and the obliquus interims muscle is to be cleaned. The posterior fibres of this muscle are directed upwards and forwards; and in raising the external oblique from its surface it will be seen that a small angular part behind is left uncovered by it. The internal oblique muscle is to be dealt with in a manner similar to the external oblique; that is to say, it is to be divided close to its attachments to the cartilages of the lower ribs and the crest of the ilium, and an incision is to be carried inwards from the ilium, leaving the lower part of the muscle undissected in the mean time; and the upper part is to be reflected inwards to the sheath of the rectus, so as to lay bare the transversalis muscle. The transversalis abdominis muscle cannot be seen in its entirety at present; but the parallel disposition of its fibres can be seen, also its origin from the crest of the ilium, and the connection of its anterior aponeurosis with the sheath of the rectus muscle, and of its pos- terior aponeurosis with the sheath formed by the lumbar fascia for the erector spinae. The sheath of the rectus abdominis muscle may now be opened by means of an incision in its whole THE ABDOMEN AND PELVIS. 149 length, about an inch from the middle line. The muscle adheres to the anterior wall of its sheath at three or four places where it is crossed by tendinous intersections, and those adhesions must be divided without injury to the muscle. The anterior wall of the sheath can then be turned outwards and inwards, the structure of the linea alba separating the sheaths of opposite sides can he examined, and the muscle may be raised from the posterior wall of the sheath. In the lower part of the sheath, ascending from the pubis to the linea alba, is the pyramidalis muscle, in front of the rectus. The series of lower intercostal nerves will be seen piercing the rectus muscle; and underneath it, entering the sheath from the outside, in the lower part, is the deep epigastric artery, which ought to be traced in its course up through the muscle; while the superior epigastric, coming from the internal mammary, may be traced in the muscle from above downwards, and in many instances its anastomosis with the deep epigastric will be easily exhibited. The structure of the sheath of the rectus muscle is to be examined by raising the dissected portions of the oblique muscles, and observing the splitting of the aponeurosis of the internal oblique, and the union of its divisions with the aponeuroses of the external oblique and transversalis muscles in front and behind the rectus; also in the lower part of its extent is to be'noted the deficiency of the pos- terior wall of the sheath by the passage of all its aponeurotic fibres in front of the rectus, and the for- mation in this way of the fold of Douglas, the margin limiting the complete part of the posterior wall, and 150 THE ABDOMEN AND PELVIS. bounding the passage by which the epigastric artery enters the sheath. The deep inguinal dissection is now to be proceeded with. The lower portion of the aponeurosis of the external oblique muscle is to be raised with the handle of the scalpel from the parts beneath, and is to be divided by an incision continued immediately outside the sheath of the rectus muscle down to the pubis. The external and internal pillars of the super- ficial abdominal ring will thus be brought more fully into view, so that their attachments may be studied together with the intercolumnar fascia, a thin mem- branous sheath continued from the margins of the ring down on the surface of the spermatic cord in the male, and less distinctly developed in the female. Beneath the portion of the aponeurosis of the exter- nal oblique muscle now reflected, fibres of the inter- nal oblique muscle, taking origin from the upper two-thirds of Poupart’s ligament, extend inwards, the upper fibres lying in a transverse direction, and those below arching more and more downwards; while from the lower third of Poupart’s ligament in the male, other muscular fibres take origin, which turn downwards on the surface of the spermatic cord, and constitute the main part of the cremaster muscle, represented in the female by a smaller group of muscular fibres somewhat detached from the rest of the internal oblique muscle. Passing the handle of the scalpel between the divided edge of the inter- nal oblique, and the still uninjured transversalis muscle, the student will now proceed to investigate the relations of the lower parts of these two muscles, one to the other. He will find them usually not THE ABDOMEN AND PELVIS. 151 very distinctly separated below; but tbe superficial branch of the deep circumflex iliac artery, directed upwards and outwards between them, will serve for a guide ; and he will divide the fibres of the internal oblique close to Poupart’s ligament, and turn them inwards. He will then find that the fibres strictly belonging to the transversalis muscle cease at a somewhat higher level than those of the internal oblique, and that the lower fibres of both muscles are continued into an aponeurotic expansion, the conjoined tendon, which is directed downwards to the pubis. This will be seen to more advantage on dividing and reflecting inwards the lower part of the transversalis muscle in the same way as the internal oblique was divided. Also, the upper fibres of the cremaster muscle may be raised from their position; and if the handle of the scalpel be introduced be- tween them and the spermatic cord, the dissector will see the thin expansion of fascia connected with its fibres, named the cremasteric fascia. There is now brought into view a continuous sheet of thin fascia, fascia transversalis, lying beneath the transversalis muscle, attached to Poupart’s ligament, and stronger in the neighborhood of that structure than in the upper and inner part of the dissection. The part of the spermatic cord laid bare by the reflection of the internal oblique and transversalis muscle is seen to emerge from a deep position by turning over a cres- centic margin of the strong part of the fascia trans- versalis; and this is what is termed *the internal or deep abdominal ring. On examination, the ring will be found not to present a complete perforation, but to have from its margins a thin membranous sheath 152 THE ABDOMEN AND PELVIS. prolonged down on the spermatic cord; this is the infundibulum fascia, and although but a delicate and seemingly unimportant film, is worthy of the dis- sector’s attention on account of its liability, like other fascise already mentioned, to undergo enor- mous thickening is cases of hernia. Beneath the transversalis fascia, between it and the peritoneum, is a layer of loose adipose tissue, the subperitoneal fat; also passing upwards and inwards beneath the spermatic cord, and internal to the deep abdominal ring, is the deep epigastric artery with an accompany- ing vein, and curving upwards and outwards is the deep circumflex iliac artery. At this stage it is advisable to divide the recti muscles and open into the cavity of the abdomen by means of a transverse incision at the level of the umbilicus. Lifting up the lower part of the abdo- minal wall, it will then be seen that it is thrown into three fossae below, one in the middle with a slight cord, the remains of the urachus, extending up in the middle line from the fundus of the bladder to the umbilicus, and one on each side separated from the middle fossa by the obliterated hypogastric arteries, which, ascending on the sides of the bladder, pass likewise to the umbilicus. The deep epigastric ar- tery either corresponds in position with the obliter- ated hypogastric, or lies a little to the outside of it, so as to leave an intermediate little peritoneal fossa between it and that structure. Now, an oblique inguinal hernia, leaving the abdominal cavity at the deep abdominal ring, follows the course of the sper- matic cord as far as the superficial ring, and that course is named the inguinal canal; while, on the THE ABDOMEN AND PELVIS. 153 other hand, a direct inguinal hernia leaves the abdo- men internal to the epigastric artery, either passing internal to the obliterated hypogastric also, or, in the event of an intermediate fossa existing, passing down through it, external td the obliterated vessel; the student will therefore take note of the relations which each form of hernia must necessarily have to surrounding parts, especially the epigastric artery, and will observe what structures will be pushed before it so as to form its coverings. The fascia transversalis and subperitoneal fat of the groin are now to he turned aside from the peri- toneum, which is to he detached from them and from the deep side of Poupart’s ligament. By this means a view will he obtained from the inside, of the relations of the transversalis fascia hound down to Poupart’s ligament below, and the iliac fascia reaching that structure from the iliac fossa, and also of the parts involved in the descent of a femoral hernia. Over the external iliac artery and vein, where they are continuous with the femoral vessels, an arch formed by the fascia transversalis will he seen, the deep crural arch, and, on the inside of the artery a small space, the crural ring, crossed by the thin septum crurale, and forming the upper extremity of the crural canal in the thigh, through which femoral hernia is wont to descend. The origins of the circumflex iliac and epigastric arteries from the external iliac will he made evident, and in a certain number of cases the obturator artery will be seen to arise in whole or in part from the epigastric, an arrangement which com- plicates the relations of a femoral hernia when the descending artery passes internal to the crural ring. 154 THE ABDOMEN AND PELVIS. After examination of these things, Poupart’s liga- ment may be more fully examined than was possible previously, and Gimbernat's ligament may be seen, consisting of the fibres extending outwards along the pectineal line from Poupart’s ligament, and abutting on the inner margin of the crural canal seen in the canal. 3. The Testicle and its Coverings.—The scro- tum is to be laid open from the front, and the student should satisfy himself that its coat of involuntary muscle, the dartos, formerly seen to be continuous with Colies’s fascia in the perinseum, is continuous also with Scarpa’s fascia in the groin. The testicle, clothed with its cremasteric tunic, is to be brought into view; and it may now be observed that besides the fibres already seen passing down from Poupart’s ligament, there is a smaller set extending up to the pubis, partly continuous by arches with the outer set, and partly taking origin from below; but this inner part of the cremaster is inconstant and variable. Laying open the cremasteric tunic, the dissector will seek the genital branch of the genito-crural nerve sup- plying the cremaster, also the cremasteric artery, a small branch of the epigastric. He will then follow the infundibuliform fascia downwards, and show its continuity with tho fascia propria of the testicle, and will proceed to dissect separate the elements of the spermatic cord. The vas deferens is recognized by its toughness, which gives it the feeling of a cord; and the spermatic artery, a branch of the aorta, to- gether with the copious spermatic veins and nerves, will be easily distinguished. Also, in close connec- THE ABDOMEN AND PELVIS. 155 tion with the vas deferens is the deferent artery, a small branch derived from the superior vesical. The testicle is now to be removed by dividing the spermatic cord, and is to be laid out for dissection on the table, or on a flat dish with a little spirit or water in it. The vas deferens and other structures of the cord are to be followed to the testicle. The tunica vaginalis, or serous investment of the testicle, is then to be opened by an incision made down the front, when the body of the testicle inclosed in the tunica albuginea will come into view, with the lobus major of the epididymis above, the lobus minor below, and the body of the epididymis on the outside sepa- rated from the testis by a digital fossa. In front of the lobus major will be found a little appendage, and sometimes a cyst or two, the hydatid of Morgagni, a vestige of the Wolffian body. The parietal layer of the tunica vaginalis, and the rest of the tissue round the testicle may now be cleared away, the continuity of the vas deferens and epididymis may be exhibited, and the epididymis may be partially unravelled. The lobus major may now be raised carefully from the tunica albuginea, and beneath it, if the dissection be made carefully, a series of little cones may be dis- played with their apices next to the testis, their bases connected with epididymis: these are the coni vascidosi, from ten to fifteen in number, and, if diffi- culty be found in exhibiting them, they may be stretched on glass, and dissected with transmitted light. The tunica albuginea, the fibrous investment of the testis proper, is now to be divided down the front, and from its deep surface thin septa, which must be severed, will be seen to pass between the 156 TIIE ABDOMEN AND PELVIS. masses of the secreting substance. Also it will be seen to be lined with a thin coating of loose tissue, which in finely injected specimens is seen to consist principally of small bloodvessels, forming a lunica vasculosa. In fluid, the secreting substance is readily separated into a multitude of lobules, and these are easily shown by slight teasing to consist of delicate convoluted tubules, very slightly adherent to one another. On dividing the testicle transversely, a section of the mediastinum testis, or corpus Highmori- anum, will be seen, a projection forwards from the back of the tunica albuginea; but the entrance of the seminal tubules by vasa recta into this mediasti- num, the rete testis, in its substance, and the emerg- ence of the vasa efferentia to form the coni vasculosi, are matters too delicate to be seen without resort to special modes of preparation. 4. Peritoneum and Position of Viscera.—The abdominal cavity is to be thoroughly opened by the completion of a crucial incision extending longitudi- nally from sternum to pubis, and through the umbili- cus from side to side. The position of the viscera should be first examined. Above, in the right hypo- chondriac and the epigastric region, is the liver ; and the extent which it occupies is to be noted. In the left hypochondriac and the epigastric region is the stomach, varying in bulk according to the degree of inflation ; and when the cardiac extremity of the stomach is raised, the spleen, attached to it well back on the left, will be brought into view. Below the stomach, connected closely by peritoneum with its pyloric end, the transverse colon crosses the front of the abdomen; and between it and the great curva- THE ABDOMEN AND PELVIS. 157 tare of the stomach is the pendulous great or gastro- colic omentum, sometimes hanging down over the colon and small intestines, and sometimes crumpled up in small bulk. Following the transverse colon to the right, and turning the small intestines a little to the left, the student will see the hepatic flexure where the ascending colon is continued into the transverse, and below this he will feel the right kidney; and pursuing the ascending colon downwards, he will find the intestinam caecum, consisting of caput caecum coli and vermiform appendage in the right iliac region. Let him observe the termination of the small intestine in the cpeeum, turn the transverse colon and great omentum upwards, and follow the small intestine up from the termination of the ileum, throwing it to the right side till he arrives at the commencement of the jejunum, which he will recognize from its being the uppermost point of the small intestine separated by mesentery from the abdominal wall. At this point he will see half the breadth of the last inch or so of the duodenum crossed by the commencement of the mesentery; and he will do well to trace without inj ury to the peritoneum the partially concealed course of the duodenum between the pylorus and its termina- tion at this point. Returning then to the trans- verse colon, let him follow it to its splenic flexure; beneath this let him feel the position of the left kid- ney ; and let him follow the descending colon down to the sigmoid flexure, and the sigmoid flexure into the rectum. Raising the small intestines out of the pelvis, let him sponge away any grumous fluid which may he collected there, and examine the position of the bladder, the depth of the recto-visical fossa, and, in 158 TIIE ABDOMEN AND PELVIS. the female, the uterus and the ovaries, with the Fallopian tubes in front of them, and the deep part of the round ligaments of the uterus. In examining the position of the viscera, so far as has been now recommended, the student cannot have failed to note much of the disposition of the perito- neum, particularly below the level of the transverse colon ; but it is necessary to give it more special study. Gathering the small intestine in his hands, he will satisfy himself of the extent and direction of the line of attachment of the mesentery to the abdo- minal wall, and will observe to what extent the ascending and descending colon, sigmoid flexure, and rectum are clothed. Then turning to the bladder, he will see that at its sides and above it the perito- neum is thrown into folds, determined, in some measure, by the position of the obliterated hypogas- tric artery ; the part above the bladder, between the two obliterated vessels, forming the anterior false ligament; the more horizontal portions, where the vessels are in contact with the bladder, forming the lateral false ligaments; and the vertical parts behind the contact of those vessels being the posterior false ligaments. In the female, on each side of the uterus, the peritoneum forms what is called the broad liga- ment or ala vesper tilionis, bifurcating into an anterior part containing the Fallopian tube, and a posterior part acting as mesentery to the ovary and the round ligament of the ovary. Attention is next to be given to the ligaments of the liver. The transverse colon is to be returned to its natural position, and the hand is to be thrust back above the liver, when the whole upper surface of that 159 THE ABDOMEN AND PELVIS. organ will be found to be clothed with peritoneum, and the peritoneum thrown into two fossae by the falciform or suspensory ligament, in the free edge of which is a fibrous cord, the obliterated umbilical vein, coming up from the umbilicus. Then turning to the under surface of the liver, it will be seen that if is clothed with peritoneum back to its posterior margin at the two sides, and that at the right and left ex- tremity the peritoneum meets back to back with the folds proceeding from the upper surface, so as to form the right and left triangular ligaments; but in the region between these too ligaments it will be ob- served that there is a large extent of thick posterior border where the folds from above and below do not meet; and this broad attachment is what is called the coronary ligament. In the middle of the under surface the peritoneum does not pass back to the postorior border of the liver, but is reflected about half way back, at the portal fissure, to the pylorus and commencement of the duodenum, so that a por- tion of the under surface is concealed. But on the right side of this reflection, between it and the poste- rior wall of the abdomen, is an opening, the foramen of Winslow, which admits the finger into a cavity expanding behind the stomach and bounded by the concealed part of the liver above. The reflection of peritoneum in front of the foramen of Winslow is the gastro-hepatic or small omentum; the concealed lobe of liver is the lobulus Spigelii, and the cavity into which the foramen of Winslow expands is the sac of the great omentum, or lesser sac of the peritoneum. This sac is now to be opened, and this can be done very effectually and without injury to any import- 160 THE ABDOMEN AND PELVIS. ant structure by an incision four or five inches long immediately below the arteries running along the great curvature of the stomach. It will be found then that the sac of the great omentum descends into the pendulous peritoneum in front of the trans- verse colon, so that the peritoneum in question is simply a much elongated omentum or fold joining the stomach to the colon. The continuation of the same layers from the colon to the posterior wall of the abdomen is called the transverse mesocolon. Also the lobulus Spigelii can now be seen, and, in the pos- terior wall of the sac, the pancreas lying transversely with the splenic artery and vein above it. On thrust- ing the hand upwards behind the stomach, the gas- tro-hepatic omentum is seen to be continued on the left into the gastro-phrenic ligament; and at the left side of the stomach the fold joining that viscus to the spleen is displayed, the gastro-splenic omentum. The peritoneal relations of the duodenum can also now be more fully seen. 5. The Mesenteric Vessels and the Intes- tines.—The transverse colon is to be again thrown upwards against the ribs, and the small intestines are to be turned over to the left side. The exposed layer of peritoneum of the mesentery is then to be stripped off, and the process of stripping is to be con- tinued till the whole series of ramifications of blood- vessels belonging to the jejunum, ileum, and ascend- ing and transverse colon is exposed. The arteries will be seen to emanate from one trunk, the superior mesenteric, which gives off from one side numerous branches to the small intestine, and from the other the middle colic, right colic, and ileo-colic branches. THE ABDOMEN AND PELVIS. 161 The main arches of anastomosis and the small arches on their convexities are to be cleared as far as the intestinal wall, partly by scraping with the handle of the scalpel, and partly by means of careful dissec- tion, so as to expose not only the arches and the accompanying branches of the mesenteric vein, but also numerous twigs of sympathetic nerve, and the mesenteric glands with afferent lacteal trunks enter- ing them, and efferent vessels proceeding upwards and backwards from them. The small intestines are then to be turned to the right side, and the left branch of the middle colic artery is to be followed till it leads to the left colic branch of the inferior mesenteric artery; the peritoneum is then to be stripped from that artery and its other branches, namely, the branch to the sigmoid flexure and the superior hemorrhoidal branching down to the rectum. It is convenient at this stage in most instances, on account of the intestines being bulky with gaseous contents, to remove them before proceeding to the dissection of the cceliac axis. This is to be done by tying the intestine at two places about an inch apart at the commencement of the jejunum, and similarly at two places in the sigmoid llexure, and dividing the intestine between each pair of ligatures, then seizing the cut end of the jejunum with the left hand, and holding the edge of the knife against it and severing by a slight sawing movement the mesentery from the intestine, which is quickly libe- rated and pulled rapidly away. The great intestine is then removed with ease. The intestines thus removed are to be taken to a water tap, the jejunal end is to be fitted on to the top, and water is to be 162 THE ABDOMEN AND BELYIS. run through them until the contents are completely washed away. They may then be arranged on a table and moderately inflated, so as to assist the study of the length of the different parts, the gradual diminution of the diameter of the small intestine from its commencement to its termination, the sac- culation of the colon, the arrangement of the three longitudinal muscular bands, and the irregular dis- position of the circular fibres by which the saccula- tion is determined. The ileum may then be divided about two or three inches from the caecum; a small portion may be removed from its lower end and inflated, and a similar portion from the upper end of the jejunum may be similarly inflated, and both parts may be hung up to be examined when dried ; while the remainder of the small intestine is to be slit open along the side by which it was attached, and imme- diately inspected. It may be slit either with the aid of a pair of scissors made with one of the blades long and blunt for that purpose, or with equal convenience this may be done by impaling a small piece of costal cartilage on one of the blades of a pair of ordinary dissecting scissors, and thrusting the blade so blunted into the intestine. The student will then observe the greater development and frequency of valvulce conniventes in the upper part of the intestine and their disappearance below, also the much greater length and number of the villi in the upper than in the lower part, a circumstance which wTill be seen to advantage by placing portions of the intestine in water. Pcyers patches of closed follicles, the so- called agvninated glands, will also be seen in the ileum, if the subject is quite recent; or in any case THE ABDOMEN AND PELVIS. the form of the patches, about a third of an inch in breadth, marked out by depressions which the folli- cles occupied, will be seen. 6. The Cceliac Axis and the Viscera supplied by it. —On turning the stomach upwards, there will he found arising from the front of the aorta below the narrow entrance into the lesser sac of the perito- neum a short artery, the cceliac axis, dividing into the hepatic, splenic, and gastric artery. These are to be dissected out with as little injury as possible to the sympathetic nerves accompanying them; and to make the dissection with comfort, it will probably be necessary to divide the forepart of the diaphragm, and to divide and turn aside the lower ribs. The gastric artery or coronary artery of the stomach may be dissected first; it is the uppermost of the three, and is known by its passing up behind the lesser sac to reach the oesophageal end of the stomach, and course thence along the small curvature to anastomose with the pyloric branch of the hepatic artery. The splenic artery is next to be followed along the upper border of the pancreas, and forwards on the left side of the lesser sac to reach the spleen; and in this course it will be seen to give off the great pancreatic and seve- ral small pancreatic branches, and nearer its terminal distribution to the spleen, several vasa brevia to the stomach, and the left gastro-epiploic which runs from left to right on the great curvature of the stomach. Lastly, the hepatic artery will be observed passing forwards below the neck of the lesser sac and in front of the foramen of Winslow, and therefore lying between the folds of the small omentum. It divides into the right and left hepatic artery before entering 164 THE ABDOMEN AND PELVIS. the liver, and it is from the right hepatic that the small cystic artery is given off to the gall-bladder. But before its bifurcation the hepatic artery will be seen to give off other branches, namely, the pyloric branch which runs from right to left to meet the coro- nary artery on the small curvature of the stomach, and the much larger gastro-duodenal branch which again divides into right gastro epiploic anastomosing with the left gastro-epiploic on the great curvature of the stomach, and the superior pancreatico-duo- denal which meets the inferior pancreatico-duodenal branch of the superior mesenteric on the concavity of the duodenum. This last-named branch may be followed to its source, and the superior mesenteric may be dissected up to its origin beneath the pan- creas.1 Returning the stomach to its natural position, the dissector should now remove the whole of the remain- ing peritoneum of the small omentum, and bring fully into view the common bile-duct (ductus communis cho- ledochus) to the right of the hepatic artery, and trace up from it the cystic duct coming from the gall- bladder, and the hepatic duct formed by the union of right and left ducts; also, behind the duct and artery, the portal vein. At this stage the terminal branches of the right and left pneumogastric nerve should be followed respectively from the back and front of the oesophagus, down on the stomach, and iu a good subject filaments may be traced from them to the hepatic, coeliac, and splenic plexuses. The ’ To prevent confusion it is necessary to warn the student that one or both of the branches to the liver may come from the supe- rior mesenteric artery. 165 THE ABDOMEN- AND PELVIS. portal vein is then to be traced up to its bifurcation into right and left portal before entering the liver, and backwards to its sources of origin so as to show the veins of the intestines uniting into superior and inferior mesenteric veins, and passing up behind the pancreas to fall into the splenic vein and to be joined by the coronary vein of the stomach. The manner in which the pancreas is expanded at its right ex- tremity, so as to form what is designated its head, filling up the concavity of the duodenum, is now to be noticed, and by a slight search into the centre of the body of the gland, the main duct of the pancreas will be found. This is to be traced through the length of the gland to its termination in the duode- num, close to the bile-duct; and near its termination it will be found joined from below by a smaller duct from the lower part of the head. The liver, stomach, duodenum, pancreas, and spleen are now to he removed; and for this purpose it is well first to raise the duodenum, and to dissect out the broad fibrous band by which its termination is attached to the left crus of the diaphragm; then to lay bare the inferior vena cava at the back of the foramen of Winslow, tie it, if there be blood in it, and divide it above the ligature. The next step is to tie the oesophagus at the entrance of the stomach, and cut above the ligature, then to proceed to sever the peritoneal connections of the liver, and lastly to divide the vena cava at the back of the liver, imme- diately below the diaphragm, and to cut the branches of the ccelic axis, when the viscera to be removed will be completely separated from the body. The stomach and duodenum are to be washed and in- 166 THE ABDOMEN AND BELYIS. dated, so as to show the form of the inflated sto- mach, the direction of its different muscular fibres, and the increased muscularity at the pylorus. They may then be slit open, so as to exhibit the depression in which the bile duct and pancreatic duct termi- nate, the large and numerous valvulas conniventes and villi of the duodenum, the disposition of the mucous membrane at the pylorus, the thick spongy and smooth character of the gastric mucous mem- brane, and the rugae into which it is thrown. The spleen is to be examined in section, so as to show its pulp and trabeculae; portions of its capsule are to be torn off, so as to show its strength and connections; and a part of the organ may be kueaded in water, so as to remove the pulp from its trabecular skeleton; and if after the pulp has been thoroughly removed the compressed structure from which it has been pressed be laid for a while in water, it will recover its original form, thus exhibiting the trabeculae beautifully and demonstrating their elasticity. The liver, separated from the other viscera re- moved with it, is to be laid with its under surface uppermost. There will then he seen the division into right and left lobes by the longitudinal fissure, the portal fissure at right angles to this, and in front of the right extremity of the portal fissure the fis- sure containing the gall bladder, and in the posterior border that containing the inferior vena cava; also in front of the portal fissure the quadrate lobe, behind it the lobulus Spigelii, and to the right of the lobulus Spigelii the eminence called lobulus caudatus. In the longitudinal fissure the obliterated umbilical vein is to be traced backwards; and at the portal THE ABDOMEN AND PELVIS. 167 fissure it will be found connected with the right portal vein, while behind that fissure it is continued into a fibrous band, the obliterated ductus venosus, leading back to the inferior vena cava. The dispo- sition of arteries, veins, and ducts in the portal fis- sure is to be dissected out; sections are to be made through the organ, so as to show its appearance and the difference between the open sections of branches of the hepatic veins and the sections of the portal veins, hepatic arteries and ducts running together and surrounded by a common fibrous sheath, the capsule of Glisson. Also the- gall-bladder is to be opened and washed, so as to show its peculiar finely honeycombed mucous membrane. 7. Solar Plexus, Supra-renal Capsules, Kid- neys, Aorta, and Vena Cava.— The kidneys are to be freed from the loose fat in which they are im- bedded ; but caution is to be exercised in removing the fat at their upper ends, lest damage be done to the supra-renal capsules, which will be recognized as a pair of flat structures, an inch or more in height and less than two inches in breadth, of a dull brown- ish-yellow color. If they be accidentally injured, the deep brown color of their interior may be mis- taken by a beginner for tissue stained with bile; but with a little care they are easily preserved, and the numerous small vessels and nerves entering them seen. Laying hold of the divided end of the infe- rior vena cava, the dissector may follow the tribu- taries of that vessel backwards towards their origin; viz., the small veins from the diaphragm and supra- renal capsules ; the large renal veins, the left one of which crosses the aorta; the spermatic veins in the 168 THE ABDOMEN AND PELVIS. male, or ovarian veins in the female, opening, the right one into the vena cava direct, and the left one into the left renal vein; lower down, four lumbar veins on each side; and, lastly, the two common iliac veins, by the union of which the vena cava inferior is formed, and the small middle sacral vein between them. The union of the common iliac veins is crossed by the right common iliac artery; and the relations of these parts are not to be disturbed. The coeliac axis will be found to be surrounded by a tliiek meshwork of nerves, the coeliac plexus ; and when this is followed back and traced outwards at the sides, it is seen to extend into a larger plexus, with a large knotted-looking ganglion, or clump of ganglia on each side; the whole plexus is called the solar plexus, and the ganglionic masses the semi- lunar ganglia. From this plexus, the smaller plex- uses are to be traced along the arteries from which they are named; viz., the superior mesenteric and renal, and the spermatic or ovarian below the renal, to supply the intestines, kidneys, and testicles or ovaries. The great splanchnic nerves will be seen piercing the crura of the diaphragm to reach the semilunar ganglia, while the smaller splanchnic nerves, piercing the diaphragm, end in the coeliac and renal plexuses. Still continuing the dissection of the sympathetic nerves downwards, the aortic plexus, consisting mainly of two bands, will be found descending on the aorta, giving off the infe- rior mesenteric artery, and ending below the bifur- cation of the aorta by its parts uniting in a broad band, the hypogastric plexus. The dissector having displayed these plexuses is now in a position to THE ABDOMEN AND PELVIS. 169 make a continuous dissection of the abdominal aorta from the diaphragm to its bifurcation; and he may also dissect out the common and external iliac arteries and veins, and the spermatic vessels and the ureters. In addition to the aortic branches already seen, he will now observe the branches to the parietes; viz., the phrenic arteries given off* im- mediately on entering the abdomen, the lumbar arte- ries four on each side, and the middle sacral de- scending from the bifurcation. By raising the right crus of the diaphragm a little from the aorta, the commencement of the thoracic duct, called recepta- culum chyli, may be brought into view; also on each side the commencement of the corresponding vena azygos in connection with the lumbar veins. The position of the kidneys in relation to the ver- tebrae and other structures of the abdominal wall is to be observed, as also the relations of the structures at the hilus; namely, the vein in front, the ureter behind, and the artery between. The kidney is then to be removed, the fibrous capsule is to be divided and stripped off, and a vertical transverse incision is to be made through the organ to display its internal structure. The division into cortical and medullary substance is to be noted. With a lens there may be noted in a healthy kidney, not only the alternation of granular and striated appearance in the cortex, but also minute vesicles in the granular part, which are the Malpighian bodies. The origin of the ureter in a dilated pelvis subdivided into calyces, contain- ing each one of the Malpighian pyramids, into which the medullary part is thrown, will be noted; and the pyramids may be counted ; and if one of them 170 THE ABDOMEN AND PELVIS. be squeezed, fluid will emerge from its apex ; and with a lens a number of little depressions at the apex may be seen, into which the uriniferous tu- bules open. 8. The Posterior Abdominal Wall.—The dia- phragm has been necessarily injured in the fore- going dissections; but even if its anterior attach- ments have been removed, its posterior parts and its central tendon remain intact, and are now to be dissected on the under surface. If the anterior parts of the ribs have been preserved, the attachments of the diaphragm to the six lower, and the interdigi- tation of its attachments with those of the transver- salis muscle are to be exhibited ; then the crura arising from the bodies of the vertebra?, the liga- mentum arcuatum internum arching over the psoas magnus as it extends from the body to the trans- verse process of the first lumbar vertebra, and the ligamentum arcuatum externum, arching from the first transverse process to the last rib over the guadratus lumborum, are all to be dissected out. Also, the positions and mode of formation of the openings for the aorta, oesophagus, and vena cava inferior are to be observed. The psoas magnus and iliac us muscles are next to be cleaned, as also the psoas parvus, if present. The presence of the psoas parvus is recognized by its long and broad shining tendon on the surface of the psoas magnus. In cleaning tlie psoas magnus, care is to be taken of the genito-crural nerve, which pierces it, either as one trunk, or in two places after separa- tion into genital and crural branches. The genital branch is to be traced to the inguinal canal, and the THE ABDOMEN AND PELVIS. 171 crural branch to its point of emergence from the ab- domen outside the external iliac artery! Outside the psoas magnus are to be dissected out the fascia iliaca and the iliacus muscle and the upper branches of the lumbar plexus; namely, the ilio-hypogastric nerve crossing the quadratus lumborum to the outer part of the crest of the ilium; the ilio-inguinal, distinguished from the ilio-hypogastric, when separate from it, by crossing a small part of the iliacus muscle; the ex- ternal cutaneous passing to the anterior superior spine of the ilium; and the large trunk of the anterior crural hid in the groove between the psoas and iliacus muscles. Inside the psoas will be found the remain- ing branch of distribution of the lumbar plexus, the obturator nerve, making for the obturator foramen, but occasionally giving off a small branch, the accessory obturator, which passes over the pubic bone, and fur- nishes, when present, a branch to the pectineus muscle. Tlie psoas muscle is to be detached from its origins, so as to exhibit its separate origins from bodies and transverse processes of vertebrae, and lay bare the lumbar plexus from which the nerves already seen arise. The anterior divisions of the first and second lumbar nerves will be seen each to give off two branches of distribution and a communicating branch to the nerve below; while the third and fourth give off together two branches, and the fourth sends a communicating branch to the fifth lumbar. The ilio-hypogastric and ilio-inguinal are the branches from the first lumbar, the external cutaneous and geuitocrural the two from the second, the anterior crural and obturator the branches from the third 172 TITE ABDOMEN AND PELVIS. and fourth; and the cord formed by the fifth lumbar nerve, joined by the communicating branch of the fourth, is called the lumbosacral cord, and enters the pelvis. In front of the psoas muscle is the lumbar part of the sympathetic chain, and in front of each vertebral body a long communicating branch passes between each lumbar nerve to the corresponding sympathetic ganglion. Turning now to the region of the quadratus luinborum muscle, the student will dissect the deep surface of the remains of the trans- versalis muscle, and will observe that it sends in a thin aponeurosis in front of the quadratus lumborum; and on dividing this, and turning inwards the outer edge of the quadratus, he will see the strong attach- ment of the posterior aponeurosis of the transversalis to the transverse processes, and, bearing in mind that he has already seen the continuation of the same aponeurosis superficial to the erector spinas, he will understand the disposition referred to when the pos- terior aponeurosis of the transversalis abdominis is said to be continued into three layers. The quad- ratus lumborum is next to be dissected, showing its attachments to the last rib, iliac crest and ilio-lumbar ligament, and the fibres' ascending and descending from the transverse processes. 9. The Pelvis. — The pelvis is to he separated from the upper part of the trunk by sawing through the vertebral column about the level of the second or third lumbar vertebra. All unseemly portions of integument and muscle on the outside of the prepa- ration, left by the dissectors of other parts, are to be removed ; and if one or both hip-joints have been left undissected by the dissectors of the lower limbs, THE ABDOMEN AND PELVIS. 173 their capsules are now to he exhibited, and the psoas and iliacus muscles are to be followed to their inser- tion. Poupart’s ligament may he detached from the ilium, and any points not hitherto exhibited in its disposition are to be examined before clearing away the remains of the abdominal muscles; also the cir- cumflex iliac artery is to be followed up, and its anastomosis with the ilio-lumbar artery seen. Like- wise the obturator membrane should be cleared on the outside, and the branches of the obturator artery on its surface exhibited. The Perinceum in the Female ought at this time to be dissected. The integuments are to be reflected inwards and removed. At the central point of the perinseum will be found to converge the superficial sphincter ani disposed as in the male, the sphincter vaginae extending round the orifice of the vulva (re- presenting the accelerator urinse muscles of the male), and the transversus perineei disposed as in the male. On each side of the rectum the ischio-rectal fossa is to be cleaned out, showing the inferior hsemorrhoidal and superficial perineeal branches of the pudic artery, also the perineeal branches of the pudic nerve coming to the surface through a considerable depth of fat in- side the ischial tuberosity, and the inferior pudendal branch of the small sciatic turning inward to join them in front of the tuber ischii. Still removing the fat, the dissector will find the fossa to be bounded, as in the male, internally by the levator ani with a layer of anal fascia on its surface, externally by the obturator fascia, and in front by a barrier formed by the dipping in of the deep layer of superficial fascia attached at the sides to the arch of the pubis, to join 174 THE ABDOMEN AND PELVIS. the triangular ligament, which in the female is split in two by the vulva. In the anterior part of the perinseum beneath the superficial fascia just men- tioned will be found the crura of the clitoris arising from the pubic arch and embraced by erector muscles, like the corresponding structures in the male. More internally, a highly complicated plexus of veins, bulbus vestibuli, invading the nymph se or labia minora (corresponding with the corpus spongiosum in the male), will be found extending forwards to unite with its fellow in forming the glans clitoridis. Be- neath the crus clitoridis and bulbus vestibuli will be found the triangular ligament already mentioned; and in young subjects the glands of Bartholin (cor- responding with Cowper’s glands in the male) will be found at the back of the vulva sending their ducts forwards to open at the side of the hymen, or the carunculae myrtiformes which indicate the situation which the hymen had occupied. The peritoneum is to be stripped from the walls of the pelvis, when the cavity will be found to he limited beneath it on the sides and in front by fascia descending from near the brim, the pelvic fascia. This will he seen to he firmly connected below with the sides of the bladder, forming its lateral true ligaments, and to be continued in front into a couple of short bands with a slight fossa between, the ante- rior true ligaments. At the back of the pelvic cavity the stripping down of the peritoneum will lay bare the division of the hypogastric plexus to form the two lower hypogastric plexuses for the supply of the pelvic viscera, and the internal iliac vessels with their visceral branches gathered so as to form, with THE ABDOMEN AND PELVIS. 175 the fascia betAveen them, a sheet directed forwards and having the obliterated hypogastric artery at its upper edge. A dissection must now be made for the more complete display of the fascife of the pelvis ; and for this purpose, if the walls of the iscliio-rectal fossa or the obturator fascia have been damaged on either side in the dissection of the perinseum, the opposite side should be chosen. Much the neatest plan of making this dissection is to arrange it so that not only the arch of the pubis and ischial attachments of the obturator fascia shall be left uninjured, but likewise the brim of the pelvis ; and this can always be managed with a little care by means of a single section with the saw, carried close by the brim of the pelvis, in such a direction as to remove a great part of the thickness of the ischial tuberosity and pass as near as possible to the sacro-sciatic notches without breaking into them. By this means the hip-joint may be removed intact, and an opportunity may be gained of opening into the acetabulum without injury to the capsule of the joint, and thus studying the action of the ligamentum teres. The opening in the pelvic wall is to be enlarged with the bone- nippers as far as possible without injury to any fascia, and the obturator interims muscle is to be removed from its position, and the peculiar divided arrange- ment of its tendon may be looked at before it is thrown aside. A view will then be obtained of the obturator fascia, attached above to a white line seen extending from the spine of the ischium to the back of the pubis, and below to an arch formed by bone, except at the back part, where it passes internal to 176 THE ABDOMEN AND PELVIS. the small sciatic notch, and is attached to the sacro- sciatic ligaments. Also, above the white line is seen the undivided pelvic fascia, with the obturator vessels and nerves piercing its upper part, and con- tinued below that line into the recto-vesical fascia on the upper surface of the levator ani muscle. And, if the student have any doubt that those descriptions are fallacious which describe the obturator and pelvic fascia as one continuous structure, he may con- vince himself by observing that fibres of the levator ani muscle are always continued up above the white line to be attached along with the pelvic fascia to the horizontal ramus of the pubic bone. The part of the brim of the pelvis left for the attachment of the undivided pelvic fascia is to be removed with the bone nippers or saw. The manner in which the recto-vesical fascia splits up to invest the rectum and bladder, together with the prostate gland in the male and the vagina in the female, is to be examined; also, the anterior fibres of the levator ani are to be fully dissected out so as to show their position between the anterior ligament of the bladder and the posterior layer of the subpubic fascia. If the bladder be partially inflated through one of the ureters, and a little tow be introduced into the rectum and vagina, the examination of the in- vestment of these viscera with fascia will be facili- tated, and the distribution of the visceral branches of the vessels and nerves better seen. The internal iliac artery will be seen to give off from the origin of the obliterated hypogastric artery the superior vesical branch, and lower down, the inferior vesical to the lower part of the bladder and the vesiculre THE ABDOMEN AND PELVIS. 177 seminales and prostate, and, below this, the middle hcemorrhoidal to the lower part of the rectum; and in the female there are, in addition, a uterine and a vaginal branch, the one ascending and the other descending on the side of the viscus from which it is named. Besides these branches, the internal iliac gives oft’ a number of others, namely, the obtu- rator accompanying the nerve of the same name, but sometimes replaced by a branch from the epigastric; the pudic quitting the pelvis by the great sciatic notch, beneath the pyriformis muscle, and re-enter- ing below the spine of the ischium, and now to he followed in its course bound down by the obturator fascia till it terminates in the dorsal artery of the penis and artery of the corpus cavernosum; the sciatic likewise passing below the pyriformis; the gluteal emerging above the pyriformis; the ilio-lum- bar dividing into lumbar and iliac branches which anastomose with the last lumbar and circumflex iliac respectively; and the lateral sacral descending on the sacrum and giving oft’ branches which enter the anterior sacral foramina. In following the branches of the internal iliac artery, the dissector will meet with the principal trunks of the sacral plexus. He will see the forma- tion of this plexus hy the union of the lumbo-sacral cord, the anterior divisions of the three upper sacral nerves and part of the fourth; much the greater part of the plexus joining to form the great sciatic nerve, which with the small sciatic emerges below the pyriformia. He will dissect the gluteal nerve, which emerges with the gluteal artery, and trace it to its origin from the lumbo-sacral cord. He will then 178 THE ABDOMEN AND PELVIS. follow the pudic nerve to its distribution, and will complete the superficial dissection of the penis by the complete removal of the integument, displaying the dorsal arteries and nerves, and following the dorsal veins back through the triangular ligament, then laying bare the fibrous exterior of tire corpora cavernosa and corpus spongiosum, and dissecting the glans sufficiently from the extremities of the corpora cavernosa, to show that it is distinct from them. The remainder of the ischium and descending ramus of the pubis may be removed, and the viscera withdrawn from their natural position, so as to allow the origin of the pyriformis muscle and also the fourth and fifth sacral and the coccygeal nerve to be dissected out on the sacrum. The dissection of the sympathetic chain is to be continued down from the point where it was left oft' in the lumbar region, and its ganglia and communications are to be traced down to the ganglion impar in front of the coccyx. Below this, in the middle line, a lobulated structure the size of a lentil may be found, the so-called coccy- geal gland. Turning the viscera still more outwards, a dissection may be made of the coccygeus and levator ani muscles from above, so as to exhibit them as a muscular floor to the pelvis. 10. The Pelvic Viscera.—The viscera are to be removed by dividing the attachments of the corpora cavernosa, the structures attaching the urethra be- neath the symphysis, and the levator ani, eoccygeus and coccygeal attachment of the superficial sphincter ani. The relation of the rectum to the prostate and 179 THE ABDOMEN AND PELVIS. bladder in the male, and to the vagina in the female, is to be examiued, and it is then to be dissected separate from the other organs. The accumulation of circular fibres forming the deep sphincter ani is to be shown, and the rectum is to be slit open, so as to show the appearance of its mucous membrane, and the slight transverse plications into which it is thrown, sometimes called folds of Houston. The ureters are to be followed down to their points of entrance, and the arrangement of the muscular fibres of the bladder is to be examined. In the male the prostate and copious prostatic plexus of veins, and the membranous part of the urethra are to be cleared, and the vasa deferentia and vesiculse seminales are to be dissected out. The vesiculse seminales will be seen to be each doubled on itself; and they are to be cut into, to show the reticular character of their mucous mem- brane. On continuing the dissection down to the prostate, the junction of vas deferens and vesicula seminalis to form the ejaculatory duct will be brought into view ; and a deep mesial part of the prostate behind the entrance of the ejaculatory ducts, and separated by them from the main mass of the gland lying in front of them and around them, will be distinguished, which is the middle lobe of the prostate. It may be well to divide the penis about the middle, to note the appearance of the corpora cavernosa and corpus spongiosum on transverse section, and the section of the artery of each corpus cavernosum, then to slit the urethra in the distal portion from beneath, so as to show the dilatation of the urethra called fossa navicular is 180 THE ABDOMEN AND PELVIS. immediately inside the orifice. The remaining por- tion of the urethra is to be slit open from above by a cut carried close to one side of the septum of the corpora cavernosa, so as to show its structure, then continued in a straight line on through the mem- branous and prostatic portions of the urethra and the front of the bladder. The recesses in the spongy part of the urethra, as well as the appearance of the mucous membrane are to be noted ; also the dilata- tion in the hulb and the thickening of the corpus spongiosum at that part. In the prostatic part are to be noted the flat and wide form of the urethra in the middle, and the constriction at the neck of the' bladder; also in the floor, a little elevation called verurnontanum with a minute cul-de-sac in the fore part of it called the sinus poeularis or uterus mascu- linus, and immediately in front of this the openings of the ejaculatory ducts, and in the hollow at the sides of the verumontanum the openings of the tubules of the prostate. Within the bladder are specially to be noted the valvular openings of the ureters, and the space between these and the neck, termed the trigone. Iii the female, the bladder and urethra are to be slit open from above, and the trigone examined as in the male. The vagina is to be cut open by an incision carried along one side, and its rugae are to be ex- amined, as well as the form and disposition of the os uteri at the upper part. The form of the uterus is to be examined, and it is to be cut open from the front? the incision bifurcating above, so as to show the cavity of the cervix with its ribbed mucous mem- brane, the os internum, the smooth mucous lining of THE ABDOMEN AND PELVIS. 181 the uterine cavity, and the termination of the Fallo- pian tubes at the upper angles. The Fallopian tubes and ovaries are to be studied, and the ovarian divi- sion of the ligamentum latum is to be held up to the light to look for the little transverse tubes in its folds, which constitute the parovarium, or organ of Rosenmuller. 11. The Ligaments of the Pelvis.—Returning to the walls of the pelvis, the student has to examine the concentrically laminated structure of the sym- physis pubis, the greater and lesser sacro-sciatic liga- ments, and the ilio-tumbar and sacral-vertebral liga- ments extending to the ilium and sacrum from the transverse process of the last lumbar vertebra. The sacro-iliac articulation is then to be examined. Its anterior ligament, situated really below the joint in the erect posture of the body, is little more than periosteum, but the 'posterior sacro-iliac ligament is of great strength to bear the weight of the trunk, and cannot be fully seen without dividing the anterior ligament and laying open the joint. The clothing of the articular surfaces with cartilage is very vari- able, but probably in all cases it consists originally of two distinct layers of articular cartilage. The actions of the pelvic ligaments, however, cannot be studied except in a pelvis which is quite uninjured. The articulations of the lumbar vertebrae one with another should be examined, the laminae and the back of the sacral canal being removed now, if they have not been previously taken away for the dissec- tion of the spinal cord. The ligamenta subflava will then be noted, and the capsules of the joints between the articular processes; also the lower parts of the 182 THE ABDOMEN AND PELVIS. anterior and posterior common ligaments. But what is most important to dissect in this part of the ver- tebral column is the arrangement of the intervertebral discs, which reach in this region the maximum of development, permitting a full display of the arrange- ment of the peripheral layers and fibres and the more pulpy central structure. STANDARD WORKS ON ANATOMY. ANATOMY, DESCRIPTIVE AND SURGICAL. By Hen- ry Gray, F.R.S., Lecturer on Anatomy at St. George’s Hospital, Loud. The Drawings by H. V. Carter, M.D., late Demonstrator of Anatomy at St. George’s Hospital; the Dissections jointly by the Author and Dr. Carter. A New American, from the fifth enlarged and improved Lon- don edition. In one magnificent imperial octavo volume of nearly 900 pages, with 465 large and elaborate engravings on wood. Price in cloth, $6; leather, raised bands, $7. (Just Issued.) The illustraions are beautifully executed, and render this work an indispen- sable adjunct to the library of the surgeon. This remark applies with great force to those surgeous practising at a distance from our large cities, as the opportunity of refreshing their memory by actual dissection is not always attainable.—Can- ada Medical Journal, Aug 1S70. To commend Gray’s Anatomy to the medical profession is almost as much a work of supererogation as it would be to give a favorable notice of the Bible in the religious press. To say that it is the most complete and conveniently ar- ranged text-book of its kind, is to repeat what each generation of students has learned as a tradition of the ciders, and verified by personal experience.—N. Y. Med. Gazette, Dec. 17, 1870. The new edition of this very valuable treatise is in many respects an improve- ment upon the editions which have preceded it. Those already familiar with the work will be struck at a glance with the more systematic arrangement of the subjects embraced in it. General Anatomy, for instance, has been isolated from the departments of Descriptive and Surgical Anatomy, with which it had been previously incorporated, and now occupies an important position in an elaborate and instructive introductory chapter of eighty-three pages. Much labor has evi- dently been expended in the preparation of the very recent English edition, of which this is a transcript, and new cuts and a large amount of matter have been added, to keep this useful work thoroughly up to the requirements of the day, and to preserve its reputation as the best exponent of the pre>ent state of ana- tomical science, which the student can consult. The ad vantages presented in the method of copious illustration by large cuts, abundantly lettered on the block itself, on the very point of interest described in the text, whether it be process, muscle, tendon, artery, or nerve, have long since been recognized by teacher and student alike, and have contributed largely to the wide-spread popularity which this anatomical text-book has attained on both sides of the Atlantic.—Am. Jour- nal Med. Sciences, July, 1870. HUMAN ANATOMY. By Jones Quain, M.D. Edited by Richard Quain, F.R.S., and William Sharpey, M.D., F.R.S., Profes- sors of Anatomy and Physiology in University College, London. First American, from the Fifth London Edition. Edited by Joseph Leidy, M.D., Prof, of Anatomy in the University of Pennsylvania. Complete in two large octavo volumes of about 1300 pages, with 511 illustrations; cloth, $6. A SYSTEM OF ANATOMY, GENERAL AND SPECIAL. By Erasmus Wilson, F.R.S. Edited by W. H. Gobrecht, M.D., Pro- fessor of General and Surgical Anatomy in the Medical College of Ohio. Illustrated with 397 engravings on wood. In one large and handsome octavo volume of over 600 pages: cloth, $1; leather, $5. AN ANATOMICAL ATLAS, Illustrative of the Struc- ture op the Human Body. By Henry H. Smith, M.D., Professor of Surgery, etc. in the Univ. of Penna., and William E Horner, M.D., late Prof, of Anatomy in the Univ. of Penna. In one large imperial oc- tavo volume, with about 650 beautiful figures; cloth, $1 50. HENRY C. LEA, Philadelphia. STANDARD WORKS ON ANATOMY. PRACTICAL ANATOMY : A Manual of Dissections. By Christopher Heath, F.R.C.S., Teacher of Operative Surgery in Uni- versity College, London. Prom the Second Revised and Improved Eng- lish Edition. Edited, with Additions, by W. W. Keen, M.D., Lecturer on Pathological Anatomy in the Jefferson Medical College, Philadelphia. In one very handsome royal 12tno. volume of 578 pages, with 247 illus- trations on wood. Cloth, $3 50; leather, $4. (Lately Issued.) Numerous as the published guides for dissectors have been, scarcely any seem to fulfil all the requirements of the student. Valuable anatomical information is often sacrificed to lengthy discussions on niceties of incisions and rules for delicate processes of disintegration of the cadaver ; while occasionally the “ Dis- sectors,” as these works are familiarly called, are swollen into the ponderous dimensions of systematic treatises on descriptive anatomy. The work before us seems to have successfully aimed at a happy medium ; it is full and yet concise, while its directions for the use of the knife are judiciously woven into the gen- eral mass of anatomical details. The additions made by the American editor bear the evidence of manipulation by an experienced anatomist, who is tho- roughly alive to the needs of the student at the dissecting table. They are pro- fuse, practical, and appropriate. The volume occupies from five to six hundred pages, and is a beau iful specimen of typographical execution.—Am. Journal of Med. Sciences, Oct. 1870. THE STUDENT’S GUIDE TO SURGICAL ANATOMY: Being a Description of the most Important Surgical Regions of the Hu- man Body, and intended as an Introduction to Operative Surgery. By Edward Bellamy, E.R.C.S., Senior Assistant Surgeon to Charing-Cross Hospital, etc. With fifty illustrations. In one handsome royal 12mo. volume; cloth, $2 25. (Just Issued.) We welcome Mr. Bellamy's work, as a contribution to the study of regional anatomy, of equal value to the student and the surgeon. It is written in a clear and concise style, and its practical suggestions add largely to the interest attach- ing to its technical details.—Chicago Med. Examiner, March 1, 1874. We cannot too highly recommend it.—Student's Journal. Mr. Bellamy has spared no pains to produce a really reliable student’s guide to surgical anatomy—one which all candidates for surgical degrees may consult with advantage, and which possesses much original matter.—Med. Press and Circular. Hitherto there has been no handbook by any English teacher on surgical—or, as Mr. Bellamy terms it—“Applied Anatomy.” The anatomical descriptions are, as might be expected from the author’s experience as a teacher of anatomy, reli- able and good. On the whole, the book is a very creditable performance, and we cordially congratulate Mr. Bellamy upon having produced it.—London Medical Times and Gaz , Dec. 27, 1873. SURGICAL ANATOMY. By Joseph Maclise, Surgeon. In one volume, very large imperial quarto. With sixty-eight large and splendid plates, drawn in the best style, and beautifully colored, con- taining 191) figures, many of them the size of life. Together with copious explanatory letter-press. Handsomely bound in cloth, $14. PRACTICAL DISSECTIONS. By Richard M. Hodges, M.D., Late Demonstrator of Anatomy in the Medical Department of Harvard University. Second Edition, thoroughly revised. In one handsome royal 12mo. volume; half bound, $2. A COURSE OF PRACTICAL HISTOLOGY: A Manual of the Microscope for Medical Students. By Edward Albert Schaf- fer, M.D., Assistant 1’rofessor of Physiology in University College, London. HENRY C. LEA, Philadelphia. CATALOGUE OF BOOKS PUBLISHED BY iH::E3xr:Fs_''sr o. lea (LATE LEA Sc BLANCHARD.) The books in the annexed list will be sent by mail, post-paid, to any Post Office in the United States, on receipt of the printed prices. No risks of the mail, however, are assumed, either on money or books. Gen- tlemen will therefore, in most cases, find it more convenient to deal with the nearest bookseller. Detailed catalogues furnished or sent free by mail on application. An illustrated catalogue of 64 octavo pages, handsomely printed, mailed on receipt of 10 cents. Address, HENRY C. 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