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A
RATIONAL EXPOSITION
OF
THE  PHYSICAL  SIGNS
OF THE
DISEASES
OF
THE LUNGS AND PLEURA;
ILLUSTRATING THEIR PATHOLOGY, AND FACILITATING
             THEIR DIAGNOSIS.
»{0 WITH PLATES.
By CHARLES J. B. WILLIAMS, M. D.
SECOND AMERICAN FROM THE LAST LONDON EDITION.
      PHILADELPHIA:
CAREY, LEA, AND BLANCHARD-
            1834. 
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                       TO
        SIR HENRY HALFORD,  Bart.
    PRESIDENT OP THE ROYAL COLLEGE OP PHYSICIANS, PHYSICIAN
                 TO THE KING, &C. &C.
My  dear Sir :
  To you,  the learned and  justly  distinguished
head of our profession, I dedicate  this  work.
Were the illustrious  inventor  of Auscultation liv-
ing, duty and inclination would have guided my
pen  to  inscribe  his  name  on this page.  He is
not; and  when  I turn to  you for the sanction of
this  little production, I feel, that  whatever slight
merits it may possess, will  meet with the  appro-
bation of an equally enlightened  mind, and the
urbane  protection of a candid authority,
  With  every sentiment of respect and esteem,
      I  am,  my dear Sir, your very faithful
               and obliged  Servant,
                        C. J. B. WILLIAMS.
  London, May 21, 1828. 
 
PREFACE.
   A discovery, a new doctrine, or an  innovation of any
 kind,  produces a curious agitation in the public  mind,
 which, in a remarkable manner, illustrates the paradoxi-
 cal and heterogeneous composition of  human character.
 Tossed to and fro by the exertions of  its  opponents, and
 of its scarcely less opposing ultra-partisans, it resembles a
 pendulum : and vibrating irregularly between many dis-
 turbing forces, it is driven out of the real sphere of its im-
 portance, and  from that true point of utility to which its
 intrinsic weight and  worth would cause  it to gravitate.
  More  particularly  has  this  happened in medicine,
 which, having few standard or fixed  points  to steady it,
 has been ever too much at the  mercy of contending opin-
 ions.   The localization of diseases is a characteristic doc-
 trine of the present day ;  and most assuredly such a sys-
 tem would be the most scientific, that could trace the mul-
 tifarious forms of disease to a few simple primary lessons
 of tissue, or well defined alterations of function ;  and that
 plan of practice  the most efficacious that could concen-
 trate its efforts against  the very root of evil, and  stop  at
 its very spring-source  the  current of disorder.   But we
 are  far  from having attained such a perfection ; and let
caution,  therefore,  remind us,  that hastily to  follow a
light, which, however  pure  and real, is yet at  distance 
VI
TREF-ACK.
 too remote  to  shed its rays upon our paths,  is scarcely
 less  dangerous,  than to chase an  empty ignis  fatuus;
 that to grasp at an object, however  perfect and substan-
 tial, so far beyond  our present reach, is not less futile
 than  to catch at an illusory shadow.
   The local study of diseases must not, therefore, remove
 our attention from their general phenomena ; our exami-
 nation of their physical nature  must not exclude the con-
 sideration of many constitutional  effects, that by reaction
 may  often become converted  into causes ; and  still  less
 should physical signs of doubtful import  make  us neglect
 obvious disorder of the system.
   But thus limited,  the  local study of diseases is more
 advantageous than the knowledge of their general forms ;
 an examination of their  physical  signs, when possible,
 more useful than the perplexing consideration of a host of
 uncertain and  fallacious  constitutional  symptoms;  and
 when physical signs are wanting,  or beyond  the sphere
 of our observation, those constitutional  ones are our best
 guides, which  most  nearly depend  on  the physical  and
 unchangeable  character of  the disease.  For the local
 study of a disease acquaints us with its proximate and es-
 sential cause, and this knowledge  suggests means for its
 removal; and by a study of its  physical signs, and of those
 general ones most allied to them, we obtain the most cer-
 tain   method of discovering  its existence, and of distin-
 guishing its character.
   Further than this, 1 shall  not expatiate on the advan-
 tages or disadvantages of the new methods  of diagnosis of
 diseases of the  chest.  They are now too well understood
 and appreciated to be in danger of yielding to  the oppo-
 sition of prejudice, or of falling into oblivion through neg-
 lect.   Too many ears have been opened to the  language
 of disease, to suffer its warnings  to be lost without a lis-
 tener;  too many minds are convinced of the truth of its
 admonitions, to permit them to  pass, as hitherto, unheed-
 ed.   Those who  are disposed to study the signs of aus-
cultation and percussion, will soon find  in  that  study  the 
PREFACE.
Vli
proofs of their merit and  importance ; those who will not
examine them, are not likely to be more moved by  any
commendations  that I could bestow, than by those that
have already been written in their favor.
  The ' Traite de 1' Auscultation Mediate,' and the per-
fect  translation  of Dr. Forbes, are at length,  generally
appreciated,  even in this country, slow to award its meed
of praise.   The homage paid to the talents of the author,
gives me a gratification that  almost seems personal; and I
doubt not  that this feeling  is shared by others of his pu-
pils, in whom his urbane and amiable deportment created
a sincere regard for the man, as his great mental abilities
excited our respect.   His great talents are known to the
public through the medium  of his writing ;  but those who
attended  his clinique can alone appreciate the wonderful
acuteness of perception, and  faculty for observation,  that
enabled  him to carry his discovery to the  degree of per-
fection in which he left it; and they, above all, witnessed,
felt, and profited by the solicitous interest which he showed
to make  others  partake of  its  inestimable  advantages.
They  felt in his death the loss of a friend ;  as  science had
to deplore the loss of his talents ;  he has wrought a good
work for both ;  the feeling shall last while  they last;  sci*
ence has recorded his name on her tablets forever :-—

     ! Ilium aget penna metaente solvi
                       ' Fama superstes.'

   Let me say a few words  on the objects and  plan of the
present work.
   I have ever  found in practice, and it is perfectly con-
formable  to reason, that the easiest and  most agreeable
way to study physical  signs, and to attain the surest cri-
terion of their value  and  importance, is  by considering
how they  are caused, or what are the relations in which
they stand to the physiological  and pathological  states
that produce them.   Attempts to discover the rationale
of the  general symptoms of  disease have  been as unsuc^ 
viu
PREFACE.
cessful as our knowledge of  the functions or properties,
on which they depend, is scanty and imperfect; and in-
quiries of this kind have been proportionately unsatisfac-
tory  and unprofitable.   But  physical signs stand on the
broad and intelligible basis of physical laws, and are as
readily explained as other simple  phenomena, illustrated
by natural philosophy.   It  has been my endeavor to ex-
hibit them, as far as possible, in this intelligible  view; to
show the  mechanism by  which the signs are produced,
and the  manner in which,  according to fixed laws, they
result as phenomena ;  to make a knowledge of the pa-
thology  predicate the signs, and a knowledge of the signs
indicate  the  pathology ;  and by thus familiarising the
mind with their  principles,  to enable it to understand the
multifarious forms which, by combination, these signs may
assume,  and to  judge  of the corresponding  physical
changes that  modify or produce them.
   I  have not refrained, when  the subject seemed to re-
quire it, or where I had any new view to offer,  from en-
tering on some questions of general pathology.   I am not
clear that I  have been  judicious  in so  doing; for the
slight views,  that I have given of these questions, may be
deemed too superficial and unsupported to be satisfactory;
and  had I developed them in  the manner in which I am
prepared to do, it would  have completely changed the
size  and nature of the work.   These opinions, as well as
my acquaintance with the physical signs, are the result of
some extent of study and  of observation, prosecuted chief-
ly in the wards of La Charite, where Laennec taught, and
Andral  prosecuted his studies.  Most of the facts which I
have described have appeared in the works of these illus-
trious  men;  and wherever my exprerience has not ena-
bled me to give the same as the result of my own obser-
vation,  I have  referred  to  their  competent  authority.
Where, in point of fact,  or opinion, I have differed from
them or from others, I would wish my dissent  to be
viewed rather as a question  to be  answered by others, 
PREFACE.
IX
than as in itself superseding former observations or opin-
ions.
  I have divided this work into two parts;  the first con-
tains  an  exposition of the general physical signs of a
healthy and diseased state and action of the thoracic vis-
cera, to which I have  prefixed a chapter on  the proper-
ties, Sec, of sound ; the second comprehends the patho-
logical  history, and  physical  signs, of the principal di-
seases of the lungs  and  pleura.   I have inserted at the
end of  the  volume some  tabular views of  the physical
signs, &c, illustrated by a plate, showing the situation  of
the regions of  the chest.  These are  to be  considered
more  as tables of reference to  assist the memory, than  as
containing any exact or adequate expositions of their sub-
jects.    The diagram of the stethoscope, and the accom-
panying explanation of the best principles of its construc-
tion, I have thought worth adding, as workmen have hith-
erto had little but fancy to guide  them. 
 
CONTENTS.
                         PART  I.

                        CHAPTER I.

On the Physical Signs of Diseases, 13—15; Applicability of Hearing
  the Study of Disease, 15, 16;  Properties of Sound; Nature of Vi-
  brations; Differences of Sounds; Harmonic and Discordant Vibra-
  tions; Conduction of Sound; Sources of Sounds;  Reflection  of
  Sound,  16—25.                                         13—25
                         CHAPTER II.
 On the Physical Signs of the State and Action of the Thoracic Viscera.
  Utility of Physical Signs, 26—28.   Sect. I.  On Percussion.  Causes
  of Pectoral Resonance, 29; Causes of its Modifications, 30; Method
  of Percussion, 31—33; Mediate Percussion, 33,34.   Sec •■. II.—On
  Auscultation. Auscultation of Respiration;  Tracheal, Bronchial,
  and Vesicular Respiration, 35—37; Varieties, Puerile Respiration,
  &c.  37—41; Effects of  Disease, 42; Cavernous Respiration, 43;
  Rhonchi, 43; Sibilant, 44; Sonorous,  Dry Mucous, 45; Mucous,
  46—48; Crepitant, 48, 49; Sounds of the Cough, 50,51; Sounds
   of the Voice, Laryngophony, Broncophony,  Pectoriloquy, 51—57.
   Sect. III.—Auscultation of  the Heart.  Nature and Order of the
   Sounds of Pulsation, 57—59; Effects of Disease, 60—62; Method
   of Auscultation, Immediate Auscultation, 63; the Stethoscope, 64
   —67; Use of the Stethoscope, 67—70.                    26—70

                          PART IT.
    On the Physical Signs op Diseases of the Lungs and Pleura.
                         CHAPTER I.
 Diseases of the Air  Tubes.  Sect. I.—Acute  Bronchitis, Pathology
   and Signs, 72—77; Chronic Bronchitis; Signs;  Distinction from
   Phthisis;  Dilation of the Bronchi, &c. 77—82  Sect. II.—Pituitary
   Catarrh, 82—84.  Sect. III.—Dry Catarrh, 84—86. Sect. IV—Per-
   tusis, 86; Croup, 87;  Ulcers and Tumors of the Bronchi, 88.  Sect.
   V.—Spasmodic Asthma, 89—91.                          72—91
                         CHAPTER II.
 Diseases affecting the Tissue of the Lungs.  Sect. I—Perioneumony
   1st  stage; Pathology, Causes of Rhonchus Crepitans, 92—94; 2d, 
xn
CONTENTS.
  stage, Pathology, Bronchial,  Respiration, &.■<:. 94—96 ;  3d stage, 96;
  Abscess and Gangrene, 97;  Progress of the Inflamation, 98; Retro-
  gression, 99; Partial Peripneumony, 101; Signs of Percussion, 102 ;
  Sputa, 102—105.   Sect. II.—Emphysema of the Lungs, Pathologi-
  cal Causes, 105—107; Signs, 108; Interlobular Emphysema, 109
  Sect. III.—(Edema of the Lungs ;  Pathology and  Signs, 110—112
  Sect. IV.—Pulmonary Apoplexy ;  Signs: Hemoptoe, &c. 112—115.
                                                        92—115
                        CHAPTER III
 Diseases of the Pleura.   Sect. I.—Pleurisy, Physical Signs;  Mgo-
  phony, and its Causes, &c. 116—123; Latent State of Pleurisy, 123,
  124 ; Retrogression of Pleurisy, 125; Double  Pleurisy, 126 ; Ter.
  minations of Pleurisy, 127;  Effects of Inflamation on Tissues, 127
  —130; Adhesions, 130, 131;  Haemorrhagic Pleurisy, Contraction
  of the Chest, 132—134;  Pneumothorax of Necessity, 135; Chronic
  Pleurisy; Nature  of Emphyema;  Signs;   136—138.  Sect.  II.—
  Pleuropneumonia, Pathology, 139; Signs, 140—142.   Sect. Ill —
  Hydrothorax ;  Uncertainty of General Signs, 142; Physical Signs,
  143.   Sect. IV.—Hcemothorax, 144.  Sect.  V.—Pneumothorax;
  Pathological Nature, 145; Physical Signs, 146;  with Liquid  Effu-
  sion, 147; Succession of the Chest, 148; Causes of Tinnitus Metalli-
  cus, 149—158.                                        116—158
                       CHAPTER IV.
Phthisis Pulmonalis.  Sect. I.-^-Palhology, Granalation, Indurations,
  159;  Crude Tubercles, 160 ;  Softening and Evacuation, 161; Cavi-
  ties, 161—163; Inquiry into the Pathology of Phthisis,  and Nature
  of Tubercle,  163—171;  Causes of Tubercles,  172; Inefficacy of
  Medicine,  173—175.  Sect.  II.—Physical  Signs.  Signs of Crude
  Tubercles and Indurations, 175—179 ; Signs of Softening and Evac-
  uation, Signs of Cavities, 179; Cavernous Rhonchus, 180; Cavern-
  ous Respiration, 181—183; Pectoriloquy, how produced, various
  kinds, 183—188; Distinction between Cavities and dilated Bronchi,
  189;  Complications, 190 ; Perforation of the Plura, 191; Sputa in
  the last stage, 191—192;  Cicatrization of Cavities, 192—193; Chan-
  ces of Cure, 193—194; Melanosis, Hydatids, &c,  194—195.
                                                      158—195
           EXPLANATION OF  THE PLATES.
  Plate I.  Construction of the Stethoscope, 196—199.
  Tabular View of the Regions, &c. 200—201.
  Plate II. Additional observations on Mediate Percussion. 202—203.
  Tabular View of Physical Signs, &c. 204—205. 
                    A

RATIONAL  EXPOSITION,

                &v.,  &c.


           PART   I.
             CHAPTER  I.
       ON THE PHYSICAL SIGNS OF DISEASE.

   By physical signs 1 mean such as depend on the
direct operation of known  laws of natural philoso-
phy on our organs  of sensation.   As they are pro-
duced by the physical state or condition of a part,
they become indications of that state or condition
as certain, as the laws, of which they are exempli-
fications, are unerring  and sure ;  and the physical
state of a part  of  the body may be  ascertained
with more or less certainty, as its physical signs,
or relations to these natural laws, are more or less
appreciable by our  senses.
  The  organs of vision, impressed  by the forms
and properties in relation  to light, and perfected 
14     ON THE PHYSICAL SIGNS  OF  DISEASE.
by the immediate correction of touch, are, both by
nature and habit, calculated to give us a more per-
fect  knowledge of external  objects, than can be
derived from the other  senses.  But the number
of diseases that come under the cognizance of vis-
ion is very limited,  as by far the  greater part of
the body is excluded  from its sphere.  Derange-
ments of the surface, and of the openings  of some
of the passages to the interior,  can alone be  sub-
jected to the direct examination of the eye.   Me-
diately,  physical changes of internal organs can be
perceived by sight only, when their size,  form, or
position is so far altered as to cause displacement
of some external part; and  the knowledge  that
such a sign gives  us, although scanty, is often val-
uable.
  The  sense   of touch,  or tact, will in the same
cases, furnish us with further knowledge as to the
form, substance,  and constitution of a  diseased
part; and,  when perfected by experience,  may
frequently  discover organic changes that  are alto-
gether imperceptible  to sight.
   The sense of smell is more rarely  qualified to
distinguish  disease ; as its impressions can only be
conveyed  through the medium  of air, probably in
motion ; yet we shall find that cases are not want-
ing in which this sense may assist us in diagnosis.
   Sound, as it may  be both generated and propa- 
O.N THE  PHYSICAL  SIGNS OF DISEASE.      15
gated in every form of matter, solid, liquid, aeri-
form, may be therefore considered a mean of ex-
amination of parts removed from sight and tact,
more promising as its sphere is less limited.  It is
requisite, however, that the object of examination
be capable  of producing  or transmitting  audible
sound;  and  that changes in the part produce cor-
responding  changes in sound  thus  produced  or
transmitted, that may be  appreciated  by the ear.
The relations of the organ of hearing to the qual-
ities of  external  objects, are, in ordinary life, much
less exercised than those  of tact and vision.  Yet
continual experience  proves  to us  that the sub-
stance or consistence of simple objects is, in some
measure, declared by  the sound which they emit
when struck.  The  sound of  liquids in  contact
with air is  familiarly  distinguished  from  that of
Bolids in the same medium,  and a  little more
attention discovers the varied  sounds  which air
in motion produces in contact with solids of differ-
ent forms.
   Such scanty  knowledge  of  the  relations   of
sound suffices for the  common purposes of life;
to study them  more  closely, with a view to  dis-
cover the nature of  objects, were a work of su-
pererogation whilst sight  and  tact are capable of
giving us much more perfect and certain informa-
tion.  But an individual  deprived of sight, substi* 
16        ON  THE PROPERTIES OF SOUND.
tutes  a perfection  of tact  and of  hearing  and
distinguishing  sounds, which, in  a great degree,
compensates for his want of vision.   So likewise
may we,  with equal advantage,  so  perfect  our
sense of hearing, as to make its indications availa-
ble to instruct us of objects beyond the sphere of
tact and  vision.   Now  such perfection must in
great measure depend on the practice of each in-
dividual, as a knowledge of simple sensations can-
not be  transferrd by description; but the study
may be much assisted and simplified  by a general
knowledge of the  chief  laws according to which
sound is produced and propagated. Unfortunately
acoustics  is a branch of natural  philosophy that
has been neglected to an  accountable degree;
and when I refer to the works of authors on the
subject, it is  but a scanty source, and  supplying
but little information applicable to our subject. It
would be beyond its purpose to introduce into this
work an attempt to supply this defect, nor indeed
 am I prepared  to do so in  the  systematic form
 which the subject requires; but there are a few
 points relating to sound  which must be known be-
 fore  we can understand those phenomena which
 it is a great object of this work to explain.
   Sound  is  an impression communicated  to our
 sense of  hearing  by certain vibrations of  matter,
 AH matter is susceptible of  sonorous vibrations; 
ON THE PROPERTIES OP SOUND.
1?
 but the degrees of this susceptibility are as varied
 as matter is diversified in form and nature.  As a
 general rule it may be stated that, it is in propor-
 tion to the strength of the molecular elasticity in  the
 matter.
    This term molecular elasticity may, perhaps, re-
 quire a little explanation.  I mean by it that force
 by which the molecules of  a body are  held at a
 certain  distance from  each other,  and resist any
 effort to displace them from it.  Thus,  glass and
 steel may be said to  possess molecular  elasticity
 in a powerful degree, because any external impulse
Js instantaneously  communicated from particle to
 particle throughout the whole  mass ; and it is  not
 lost or broken by the  yielding  or displacement of
 the molecules at the point struck.   Air, and other
 fluids, on the other hand, cannot readily be thrown
 into  vibrations,  unless the impulse be applied to
 some  extent of surface, by which it becomes com-
 municated to many particles at  once.
   This rule is, however, much  too abstract to ap-
 ply directly to the common  instances of  the gen-
 eration of sound ; for it is not always the  hardest
 bodies that produce the loudest sounds in our ears.
 But we must separate the physical from the phys-
 iological phenomenon, in order to analyze each  in-
 to  its respective  elements.    I conceive that the
 motion of matter producing  sound, should be con-
                    3
» 
18        ON THE PROPERTIES OF SOUND.
sidered as molecular,  although the result is the
vibration of  the mass.   I would explain the pro-
duction of sound as follows:—An  impulse is im-
pinged  on certain  molecules;  this, momentarily
overcoming the resistance of the quiescent forces,
causes these  molecules to start from their place ;
that force of  repulsion, which existing between
the different  molecules resists the attempt to ap-
proximate them, transfers the impulse from mole-
cule to molecule, and  thus  extends it  through-
out  the mass.   The impulse  that forced  these
molecules  from their  position  being  exhausted,
they spring back, by virtue of their attractive and
repulsive forces, to beyond their original situation,
and are  again driven  back; until by a series of
these alternating vibratory motions, the disturbing
force is lost.
   The assimiiatory power, then, that these vibra-
tions possess depends on the molecular  elasticity
of  the body, that is to sayron the repulsive and
attractive  forces that  subsist between  the  mole-
cules of which  it  is composed;  and it is evident
that this assimiiatory or  propagating power will
be  more  effective in  proportion as  the molec-
ular elasticity is strong and perfect.  It is likewise
apparent  that  uniformity, or equality of molecular
elasticity favors *he propagation of sonorous vibra-
 tions.   For if the-elasticity of some molecules be 
        ON THE PROPERTIES OF SOUND.         t&

less than that of others* the  reaction  being less,
will  produce  vibrations not  consentaneous with
those of the  others, and may impair, or even de-
stroy them.   Let  us illustrate this by  the vibra-
tions  of pendula.  Suppose a number of pendula
suspended in  a line, and in  the act  of  vibration.
If these pendula are of the  same length, the vi-
brations will  be equal and  consentaneous, and will
neither interfere with, nor interrupt each other.
Such are the vibrations in bodies, whose molecu-
lar elasticity  is uniform. But suppose the pendula
of different lengths, and the vibrations,  therefore,
unequal, the  motions would then interfere with
and  neutralize each  other, and this the more ef-
fectually, the more varied  and irregular they are.
   There  are, however, some  vibrations that, al-
though they  are not synchronous, nevertheless
promote each other, and  these  constitute  what
are  called harmonic sounds.   To show how this
is effected, let  us again  refer to the pendulum.
We  have already remarked that pendula of the
same length vibrate synchronously, and may, there-
fore, promote  and strengthen each other.   This
is the harmony of unison.   Suppose one pendulum
half the length of the other ;  it makes double the
number of vibrations in the  same space of time, 
20         ON THE PROPERTIES OP SOt/Nb.
and being regularly in the  same  ratio of striking
two for every one of the other, the vibrations do
not counteract  each other.   This concord or har-
mony of vibrations of sound produces the harmonic
note of the  octave.  The same  illustration will
enable us to  conceive the  harmonics of  the fifth,
the fourth, and the third ; the ratio of their vibra-
tions  being  as 3 to 2,  4 to 3, and  5 to 4 of the
key-note; and  in like manner of  other harmonics.
Now it is necessary to be aware of these relations,
in order to  understand the  production  of such
sounds as we are accustomed to hear; for, owing
to the variable  molecular  elasticity of the  bodies
in which they are produced, these sounds are al-
ways compound, and  consist of a variety of vibra-
tions, which  may increase or neutralize each other
according: as  the arithmetical relations of their mo-
        rs
tions harmonize or disagree.
   The propagation  or conduction of  sound from
body to body, is subject to the same rule ; and,
in fact, it consists in the transmission of  the same
impulse, producing sonorous  vibrations,  from one
body to another.  A sound will, therefore, cozteris
paribus, be best conducted by those bodies  which
approach in degree and  strength of molecular
elasticity the body in which that  sound is genera-
ted.   Thus a sound produced in air will be best 
           ON THE PROPERTIES OP SOUND.        21

propagated by air ; one produced  in a solid will be
most completely conducted by  a solid of the same
density and hardness,  &c.  On the other  hand,
bodies, very different in density, receive and trans-
mit sonorous vibrations  very imperfectly.   Thus
air transmits, in a very impaired degree, the sounds
produced in dense bodies, such as metals ; and the
sonorous vibrations of air are scarcely received by
dense bodies.
   The  sounds produced by the collision of solids,
and transmitted to us through  air, are,  neverthe-
less, among the loudest  that we hear; but this is
by reason  of the law  before  stated, that  those
bodies are most susceptible of  sonorous vibrations,
in which  the  molecular  elasticity is greatest, as
Avell as most uniform;  and such sounds are in-
comparably louder when heard through solids, in-
stead of  through air.  The transfer of sonorous
vibration  may, however,  be  greatly  favored in
another  way, by bringing a large surface  of the
solid vibrating  body in  contact with the air, and
otherwise  modifying  its  form, as  in the case of
bells, &c.   This is a separate  branch of acoustics,
and is not sufficiently connected with our subject
to require notice here.
   There  are  many substances,  that  prove bad
conductors of  sound, from their  being of unequal 
22        ON THE PROPERTIES OF SOUND*'

density;  and those are worst  in which this ine-
quality is, greatest.  Linen and woollen stuffs are
examples.  The threads of  which they are com-
posed leave  interstices, which contain air of very
different density from the solid  fibres.   In  paper
and pasteboard, the same fibres pressed closer to-
gether, and forming a more  solid  mass, become a
far better conductor.   The  same is the case with
all spongy bodies.
  It now becomes apparent  why the loudness of
sounds does  not always appear  to us proportioned
to the hardness and density of the bodies in which
they are produced.  Air is  commonly the medi-
um through which sounds are conducted  to our
ears; and this  is a body of  such tenuity  that it
much impairs those produced in solids, although,
physically, they are the loudest. We are thus re-
lieved from  the danger of injury  to our organs of
hearing, from  sounds that might be too powerful
for them to bear;  and this happy provision super-
sedes the necessity of providing them with a de-
fensory apparatus  for their   occasional  occlusion,
which we find to be in various  degrees necessary
for the  other  organs of sense.  In most of the
loud sounds, therefore, which we are accustomed
to hear, air is the sonific body, as well as the con-
ducting medium. The sound of the  voice, of most 
           ON THE PROPERTIES OF SOUND.        23

musical instruments, of  explosions, #c, originates
in air.  In  some  of these,  such as  explosions,
flutes, and other instruments of the whistle kind,
air produces the sonific impulse as well as the sound
and such sounds conveyed  by  air may  be of  a
most  powerful  kind; but can be only imperfectly
transmitted by solid  conductors.  In the  sounds
of reed instruments (among which 1 do not hes-
itate  to class the  human voice,) air is equally the
sonorous body; but it is  thrown  into  sonorous
vibrations by the mecanical motions of a solid, .
producting little or no sound  themselves.  The
hum of insects is  a remarkable example  of  the
same  kind.   The rapid motions of  their  wings >
produce in  air  a  corresponding series of   vibra=
tions, which, when it attains a certain^ degree of
rapidity, produces  sounds;  and this sound is more
acute as the rapidity is greater beyond this de-
gree.   The vibration of cords, I believe to be in
the same predicament;  for  the sounds  which7
they  produce have no relation to the  sonorous
qualities of  the  substances of which they  are
formed;  but entirely  to  the  elastic tension  in
which they  are longitudinally kept, and by  means
of which  an impulse, deranging their equilibrium,
occasions a series of transverse vibrations,  which,
communicated to air, if  sufficiently rapid,  producer
sound.
  Sounds produced by the  percussion of  solids 
24        ON THE PROPERTIES OF SOUND.

are little, if  at all, dependent on the  surrounding
conducting medium ;  but  they become  modified
in intensity, and even in kind, by this medium, ac-
cording as it differs in  density from the  solid in
which they were produced.   When this differ-
ence is great, a third  body, of intermediate densi-
ty, will very much facilitate  the transmission  of
the sound  to our ears.   Thus,  the percussion of
hard metallic bodies sounds  much  lounder when
they are  in  contact with wood,  because  this sub-
stance of intermediate density transfers the vibra-
tions with greater facility from  the metal  to the
air.  1 may give the common pitch bar as an ex-
ample  of this.   It produces little sound after it is
struck, as long as  it is held  between  the fingers,
but no sooner is it  placed on its end on  the table
or pianoforte, than its sound becomes  distinct and
clear.
   I am thus led  to consider the  power of dif-
ferent  media to conduct sound, not as  an  absolute
and unchangeable quality, but as dependent on the
relations  in  point of elasticity of their molecules
to the substance from which they receive the so-
norous vibrations.
   The reflection  of sound has relation  to  the
same qualities of  substances, but in a  converse
way.   When, for example, a sound is produced
in a very rare medium, such as air, the force with
which the  vibrations  are  propagated  from  par- 
           ON THE PROPERTIES OF SOUND.        25

tide to particle, is weak,  because the molecular
elasticity is weak, and being, therefore,  incapable
of communicating its vibrations to any hard, dense,
and incompressible solid with which it may  be in
contact, the resisted impulse is  reflected  back to
the air itself; aud this more perfectly, the great-
er the difference in molecular  elasticity  between
the air and the  solid body.   The  laws of the  re-;
flection of  sound are nearly the same  as  those of
the reflection of  light; the angle of  reflection
being equal to the angle of  incidence;   and this
analogy greatly  facilitates our study,   I must ob^
serve, however, that  the analogy  is not perfect in
observation; for the greater  materiality of the
media of the vibrations of sound  exposes them to
a greater number of disturbing influences, which
impair or  disguise  the operation  of  the law.
Thus, from motion,  difference of  density, &c,
sound seems often to be propagated through air in
curves, instead  of  in straight  lines;  and  from
there being always reflection where  there  is  di-
versity of  matter, sound is  more easily diffused
than light,
                       4 
26     ON PHYSICAL SIGNS IN THE  CHEST.
CHAP.  II.
ON  THE PHYSICAL  SIGNS OF  THE STATE  AND
       ACTION OF THE THORACIC VISCERA.
  It has been  remarked that  no  parts of the
body  require  the  assistance  of  an  additional
sense  to discover their state  so  much as  those
contained in the thorax.   Excluding equally  with
other parts the scrutiny of vision, and  by reason
of their  bony case  more than  they beyond the
reach of tact, the thoracic viscera would have re-
mained in more  than the common obscurity and
uncertainty  of signs produced  by  equivocal and
inexplicable sympathies,  and still more fallacious
sensations, had  not  the  immortal  discoverers of
auscultation and percussion pointed out  the pe-
culiar adaptation of  the  chest  to  afford to  our
organs of hearing more certain  indications of the
state of its  contents.  And so  effectually is the
lacuna filled by the exercise of  a sense that may
be  said  to  have  been  hitherto useless in  the
physical  investigation  of disease,  that the  dis-
eases of  the chest  may  now be  ranked  among
those most  within  our  powers of  examination.
For, unlike  some others  (the brain for example),
the lungs and heart have no such  complexity  of 
ON PHYSICAL SIGNS  IN  THE CHEST.      2?
structure, or obscurity of function, as  to  render
signs of there physical state of  little avail to ex-
plain  their  disorder,  or to  suggest means for
their cure.   We see in these organs  a mechanism
of  structure  admirably adapted  for  its own
office; we know that  the  perfect state of  this
mechanism is oecessary  to preserve  the  integrity
of  the function;  and we  can  percieve,  when
that becomes  deranged, how  this  must  neces-
sarily suffer.  The signs by which such derange-
ments are commonly distinguished,  arise not so
much from the  diseased part itself,  as from the
disorder which it may produce  on  the functions
and sensations.   Now, as it  is impossible to find a
standard by which to  judge  of the  health of a
function in individual  cases,   and   as sensations
are frequently so elusive as to baffle our attempts
to  trace them to their source,  the  common me-
thod of  diagnosis not unfrequently fails to  detect
even the existence of  a disease;  and even  when
the signs of  disordered function and local  pain
are so  distinct and prominent as clearly to  prove
that disease is present,  they generally leave  us
in  more  or less doubt as to its nature.   They
have still their  importance, and until lately  have
been our  sole  guide in the  employment  of  a
practice by no  means  unsuccessful.  Let us not
then exclude these from  our  view,  whilst  we
study other signs which promise  us still greater 
28     ON  PHYSICAL  SIGNS IN THE  CHEST.

certainty.   Ages have passed away without leav-
ing us materially improved in our diagnosis after
the old  method : another is now offered to us, on
the more certain and  intelligible  basis of physics,
which discovers signs which are identical with the
physical nature of the disease.
   There are two classes of sounds from which a
knowledge may be obtained  of the  state of the
thoracic viscera.  One description or class  is, for
the  most part,  naturally  produced  by the  mo-
tions of the organs within the chest, and is heard
by the direct  or mediate  application of the ear
to its parietes.  These are the signs of ausculta-
tion.  The  other class of  sounds  is  produced
artificially by  striking  the chest;   these consit-
tute the signs of percussion.   These last I  shall
first notice,  not  that  they are  prior  in impor-
tance, but because they  are  more simple, and
are  generally consulted  in  examination before
the  fuller and more  satisfactory ones of ausculta-
tion.

           Section I.—On Percussion,
   The  chest of a person in  health yields,  when
struck   lightly by  the  ends  of   the  fingers,  a
hollow  and  somewhat  drum-like  sound.   The
resonance  thus  produced arises  from the  air
contained within, in  the  spongy  tissue of  the
lungs, which receives  the  impulse   through the 
ON PERCUSSION.
29
thoracic parietes.   But in order that the impulse
be propagated, these parietes must possess a cer-
tain  degree of elastic  tension ; for  if they  are
flaccid, and yield to the stroke  of percussion,  no
sound will  be emitted but that  slight and obtuse
one produced by the fall of the fingers  upon  the
surface.   The natural  compact  of  the chest,
with  its  frame  of  bone,   attached  by  elastic
ligaments   and   cartilages,  and  invested  by  a
covering more or less tense, of  muscles  and  in-
teguments, is generally well  adapted  to transmit
to its  interior the impulse  of external percus-
sion ;  but if the elasticicity of the cartilages be in
any  way   lost,  or if  the  integuments  become
thickened  by  oedema,  fat  or  other  cause,  the
resonance  on  percussion  will  be  proportionately
diminished;  and  these  causes  of  modification
of the pectoral sound must be carefully separated
from those depending on the state of the internal
organs.
   In the  natural and healthy state, as the  clear-
ness  and  fulness  of  the pectoral resonance  on
percussion depends on the  air-filled  structure of
the lung, and the tenuity and tension of the con-
taining parietes,  it is evident that  those parts
of  the chest will sound  best that  most com-
pletely  present  these  conditions.   Our anato-
mical  knowledge  will  therefore   point  out  the
different  degrees  of  sound that  the  different 
30
ON PERCUSSION*
parts of a healthy chest should emit.   Thus, the
anterior and axillary parts  of  the  chest  should
sound well;  but in  most of the posterior  region
the  thickness of the soft  parietes  must  render
the sound more dull, and the same effect may be
produced in the inferior parts  by  the  contiguity
of the abdominal viscera.  For a  more specific
detail of the natural sound  of  each  part  of the
chest, I  refer to the  table  of the  regions into
which Laennec has divided the  chest.
   The  manner in  which  diseases  modify  the
pectoral resonance, is by changing the density of
the contained  organs.  If, for  example, a  liquid
or solid effusion take  place  in any  part  of the
lungs or  pleura,  the corresponding portion  of
the chest will yield a dull, dead sound, and  with-
out that hollow resonance which is  naturally pro-
duced by air  underneath.   On the  other hand,
when the aeriform contents of  the cavity are  in-
creased beyOnd their usual proportion, as in pneu-
mothorax and emphysema, the  natural  resonance
may be increased to a degree   that  sounds quite
tympanitic.
   The  practice of percussion  requires  some
manual   dexterity;   and as  on  this,  in  great
measure depends  the correctness  of its  indica-
tions, I shall bestow a few  observations on  the
best method of percussion.  It is of very  little
consequence whether the  patient  be sitting or 
              METHOD  OF PERCUSSION.          31

standing,  or sitting up  in bed,  provided we hold
in mind that all the  sounds,  bad  and  good,  are
rendered somewhat duller in the latter case,  by
the  vicinity   of  the  pillows  and  bed-clothes,
which destroy  the  resonant  echo  accompany-
ing sounds in  more empty  rooms.   The  same
amount of difference may be perceived in differ-
ent rooms, when  percussion  is  practiced in the
standing  or sitting  posture.   In  some cases  of
debility, and of painful  disease,  the patient can
bear no other than the  recumbent posture ; and
in some  parts where percussion can be  practised,
the  sounds  are  somewhat  more dull in these
cases, from the deadening  effect  which the bed
has on  them.    Thus warned, a little practice
will enable the student to avoid error  from these
causes.
   The  part on  which  percussion  is practised
should be covered with   a linen  or  cotton  gar-
ment,* to render the  stroke  of percussion  more
equable, and to prevent   its  producing pain; and
for this purpose, a shirt or bed-gown kept on, an-
swers very well,  if care be  taken  to keep  it
smooth and close on the  surface, by the fingers t>f
the left hand.

  * I find that Dr. Forbes thinks this precaution unnecessary (Trans- '
lation of Laennec.)  I believe  that the tact  furnished by experience
may, as I have afterwards observed, supersede this and other precau-
tions ; but it is necessary for a  beginner, particularly where the soft
aprieties of  the chest are thick. 
32
METHOD OF PERCUSSION.
   Percussion  is  generally  performed with the
 three first fingers of the right hand,  held in such
 manner together, that  with their  last joints at
 right angles  with  the  surface  to  be  struck,
 their tops shall fall  simultaneously  on it.   The
 stroke  must  be made lightly,  and  with  a jerk,
 by  drawing  the hand  back the instant it  has
 fallen,  as  if  it  struck  something elastic  which
 repelled it; and by a stroke thus made,  as mo-
 mentarily  as  possible,  the  fullest  and  clearest
 sound is elicited.  It  is  of  importance to attend
 to  the manner  in which the phalanx  of fingers
 falls  on the chest; more or  less in the transverse
 direction of the  ribs is generally the best posi-
 tion;  but,  above  all,   it is quite  indispensible
 that, in making  comparative trials  of the  two
 Bides of the  chest the same   method  be adhered
 to; for gross  errors may  be the consequence of
 striking on one  side across,  and  on  the  other
 along the  ribs,  as the  sounds  often  differ  con-
 siderably when  produced in  these different  man-
 ners.   I might  go  into minute  details of  many
 modifications  which 1  have  found  advantageous
 in the  employment of percussion in individual
 cases; but his own experience  will furnish  such
 knowledge  to each observer far  better than  the
 most   elaborate  instructions  that 1 could  give.
 I shall  only remark in exemplification, that  the
examination  of  circumscribed spots  can be  best 
MEDIATE PERCUSSION*
33
effected by percussion with a single  finger (as on
the clavicle, a rib, &c.,) whilst a general and tol-
erably accurate survey of the  chest may, with
economy of time, be often obtained  by percussion
with the flat hand, avoiding, in this case, the jerk
necessary in the other  method.   This, I must*
however, add, should be  trusted to  only by  the
experienced ear.
   Lasnnec remarks that,  besides the difference
of sound, percussion, on a healthy  hollow chest,
gives a peculiar vibratory sensation to the fingers
of the percussor, quite different from the  dead
feel of percussion  over a part of the  chest  des-
titute of  elastic air.   To  those  who  have  suffi-
cient nicety of  tact to  percieve  this distinction*
it may give additional evidence  not  without its
value.
   The force required  in percussion is  not by
any means  to  an  amount sufficient  to  produce
pain in  the generality  of instances; but  there
are some cases in which the parietes of the chest
are particularly tender, and here percussion  may*
with advantage,  be made  mediately, in the  man-
ner recommended  by M.  Piorry.   This  is  done
by interposing a thin lamina  of wood,  horn, or
ivory on  the part to be struck* so that while the
impulse  of  percussion is  perfectly transmitted to
the interior of the  chest, it is so  diffused  on the
                      5 
34
MEDIATE PERCUSSIOn.
surface covered by the lamina as not to produce
pain.  The same contrivance I have found equally
useful where, on  account of fat, oedema, &c, un-
guarded  percussion could not be  practised  with
sufficient force  to produce  the  resonance  of the
interior, without annoying the patient.  To avoid
multiplying apparatus, I have  always  used  the
horn ear-piece  of the stethoscope,  which for this
purpose I have made very thin; and to prevent
the clacking noise produced by the fall of the fin-
gers on its hard surface, I have it lined with  soft
leather; and thus prepared, I  have  found  this
little contrivance  perform this  part  of its  double
office better than any pleximeter that I have seen.
Held by means of its raised  rim, with its concave
or outer side in close apposition to  the chest, it
presents its inner side covered with leather  for
percussion, which may be practised with the tops
of the fingers as usual,   or with any other  solid
object of  convenient form.
   Such is  the mode of obtaining signs  of the
physical state of the  contents of the  chest by
percussion.    The   indications thus   obtained,
although they  only relate to  the density  of  the
parts, are of great value, and  alone may  some-
times detect  disease  that  all  other signs leave
in obscurity.   But  their importance and value
are vastly  enhanced,  when they  are  combined
with, and corrected by, the  more  numerous  and 
SIGNS OF AUSCULTATION.
35
 precise signs discovered by auscultation; these I
 proceed to discover.

          Section II.—On Auscultation.
   The signs of auscultation are those sounds pro-
 duced in the chest, which  may be heard  by the
 direct or mediate application  of the ear  to its
 parieties.  Now, I shall endeavor (and the  same
 will be  my object throughout this little work) to
 trace  these signs to their physical causes, and by
 thus exploring the relations of  diseases to  certain
 and unchanging laws  of   natural  philosophy, to
 place  their  characters beyond  the  doubtfulness
 and  obscurity  of  sympathetic  and  sensatory
 signs.
   I have before remarked that the sounds heard
 by auscultation are, for the most  part  produced
 by the natural movements of the organs contained
 within the chest.  These movements are, those of
 respiration,  to  which may be  added the voice;
 and those of the  heart.   Let  us consider the
 manner in which these several motions give  rise
 to sound, and  we shall then  be  enabled to  per-
 cieve a 'priori the modifications in it that  disease
 may produce.
   The ingress  and  egress of  air in the lungs
cause  a sound  of a  peculiar nature,  differing
somewhat according  to the part  in  which  it  is
heard.    This  difference arises  solely  from  a 
36          SIGNS OF AUSCULTATION.
diversity in the size of the tubes, through which
the air passes, and by  a knowledge of  this we
may,  therefore, easily  judge what these differ-
ences ought  to  be.   Between the  scapulas (for
example) in the upper part of the axillse  and in
the  upper   sternal region,  the  sound  is  hol-
lower, more tubular and blowing,  because  in
these  regions  many bronchial ramifications  of
considerable  size  come  so  near  the  surface of
the lung, that the sound  produced  by the  pas-
sage  of air  through them  is  heard  more  dis-
tinctly  than  the duller  and  more diffused  mur-
mur  which  has its seat in the smaller  bronchi
and  air cells.   It is  this latter  sound,  on the
other hand,  that prevails in other  parts  of  the
ehest;  for although  there is  bronchial  respira-
tion in these parts likewise,  it  is  not sufficiently
near  to the surface  to be  transmitted  through
the   spongy  and  ill-conducted  tissue   of  the
lung.
   It  is of great importance to be able  to  dis-
tinguish  between  the  sounds which the  passage
of the  air  produces in the  trachea and larger
bronchi  and in the extreme bronchi and vesicles ;
which  different  kinds  of   respiratory  sound,
we shall, with  Laennec and  Andral, distinguish
by  the  epithets tracheal, bronchial, and  vesicu-
lar.   Rather than attempt  to convey an   idea of
these  sounds  by  description,  I  will  refer  for 
SOUND OF RESPIRATION.
37
the  illustration of  tracheal respiration, to  the
anterior and lateral  parts of the neck,  the  supe-
rior  sternal  region,  the  sternal  portion of the
subclavian regions,  and the cervical  portion  of
the  acromian  regions ;  of brochnial respiration,
to the middle  portion of the sternum and  those
parts of  the  mammary  regions  contiguous  to
it, and  in  thin subjects  to  the  principal part
of the  interscapular  and axilliary  regions;  and
of vesicular  respiration to  the  remaining  parts
of the chest.   Such are  generally the  situations
of  the  different  kinds  of  repository sound;
but, as   might  be   expected,  the  distinction,
may be much more easily made in some subjects
than in others, and the characters can  in a cor-
responding degree be severally  recognised.
   There is a  considerable  difference  in the  in-
tensity  of  the  sound of respiration in different
individuals;  and   this  depends   partly  on  the
thickness of the parietes of the chest, but princi-
pally on the  degree of  activity  of the  respir-
atory  function.   Increased  thickness  of   the
parietes of  the chest by  fat or  oedema   does
not very materially impede  the  transmission  of
sound of  respiration to the ear, for  being  nearly
of equal density, they form still  a pretty  good
conductor of   sound.   From  the  same circum-
stance, the respiratory murmur is  most  distinctly 
38
SIGNS OF AUSCULTATION.
 heard in those parts of  the  chest  where the pa-
 rieties are thinest.
   The degrees of  activity in the  function  in a
 much  more remarkable  manner determines the
 intensity  of  the  respiratory  sound;  and  the
 variety which  different  individuals  in  this  re-
 spect present, even in  health,  is  a  matter  of
 much physiological interest.   We  know that  in
 like manner  other secernent functions, as  those
 of  the kidneys and skin, vary in different individ-
 uals, under the  same circumstances,  in  the de-
 grees of their activity, and  we  may  range  the
 present instance  amongst them.   Were we  to
 inquire  still  further into  the causes  of  these
 differences, we should probably  be  led  to  con-
 clude that they  all  have relation to a  certain
 standard  of  organic activity or   irritability,  in
 some manner  dependent  on  the  physical consti-
 tution  of  the body.  From this  obscure point
 of constitutional  difference (which   we  can   only
 generalize, and not explain) let us  turn to some
 changes in the respiratory  sound  that  may  take
 place in the same individual  within the  bounds
 of health.
  I have  remarked  that it is more  distinct after
 meals  than at  other times,  which fact  accords
well with  an  ascertained point in  animal chemis-
 try; and   proving  that  a  greater  activity  of
function   is  at  that  time required,  it  likewise 
SOUND OF  RESPIRATION.
39
furnishes   an  additional   reason  why  persons
affected  with   habitual  dyspnoea,  should then
most feel the incapacity  of their  organs.  Mod-
erate   exercise  likewise increases  the respira-
tory sound;  but violent exertion has  a tendency
to  produce  an  opposite  effect; for,  when  the
muscles of  respiration are  exerted  beyond  a
certain degree of activity, the  dilatation and con-
traction of  the  lung  cannot aways  keep pace
with them, and the bronchial muscles are  thrown
into a  state  of irregular  spasmodic  contrac-
tion (probably  increased  by  the congestion  of
blood in the  lungs,) which is gradually relieved
by  the   returning  moderation and   regularity
of  the  respiratory  effort.   This  is  much  more
remarkable  in  persons  unaccustomed  to, exer-
tion and  advanced  in life, than in the  young
and active;  and  1 think  we  should  not use too
mechanical a term, if we say that this  proceeds
from the  greater rigidity  of the  lungs  in the
former.  This leads me  to  the  remarkable  pe-
culiarity that the respiration of very young  indi-
viduals presents  to the auscultator.
   From birth till about the period  of puberty,
the sound of respiration  is much louder, and
more shrill  than in after life; the passage of the
air, producing it, seems  much quicker, and  the
function appears  to be in  an  extreme of activity.
That   the   sound  of  puerile  respiration   (as 
40
SIGNS OF AUSCULTATION.
Lasnnec terras this modification,) proceeds from
no  peculiarity  in  the  structure   of  the  lungs
of  children, is proved  by  the  fact that it is
occasionally  produced  in  adults,  when   one
part of the lung is called  into increased activity ;
to  supply  the  defect of another  incapacitated
by disease.  So  also  in adults, after a temporary
suspension of respiration, as in  reading  or  con-
tinued utterance,   the respirations  are often  at-
tended  with a   puerile sound;  for being  more
rare, they are made with greater perfection  and
energy than usual.   About  the  age of  puberty
the  sound  of  respiration becomes deeper  and
less  noisy,  and  in  a  few years,  sooner or  later,
gradually assumes the character  of adult  respi-
ration.
   This change I  am disposed to  attribute prin-
cipally to  a greater  comparative   developement
of the lungs  at  that  age, rather than to  a  di-
minished activity of their function.  It is  at this
period that the muscular system developes  itself
more fully, and to  support  the  occasional  exer-
tion of its augmented  power,  the organs  of  the
chest acquire an  increased  capacity, and a more
extended  sphere  of activity.   The  pulse  and
respiration  becoming slower  in their standard
of rest, offer  a  greater  range  in their  dynamo-
metric scale,-and   although, from  increased  ca-
pacity,  their  common  activity  is  diminished, 
            SOUND OF RESPIRATION.            4^

they have greater capabilities in  reserve  to sup
port the occasional  exertions  of increased  mus-
cular strength.    We  find,  accordingly,  that in
young  persons above  the  age  of  puberty,  in-
creased exertion  renders the  respiration  puerile,
(that is, more active,) and is therefore easy; and
as  long  as this  supplementary  power  of  the
lungs is moderately  exercised, by occasional  in-
creased muscular exertion, it will be preserved ;
but, on the other hand,  it will be lost by disuse';
the organs will  become  rigid  in their limited
sphere of action;  occasional exertion  will  be
attended with the anhelation  and  spasmodic  ac-
tion of the  bronchi before alluded to;  and the
attacks of disease,  on a function that can scarcely
bear abridgement, must  be left  with a greater
degree of  severity:—an  addition to the volume
of  arguments in favor of regular and active exer-
cise.
   As the sound  of vesicular  respiration is pro*
duced by the perfect penetration  of the  air into
the lungs,  its simple and equal presence  may  be
regarded as an index of the healthy performance
of  the function;  and as no  physical  change can
interrupt  or  modify  this  function without inter-
rupting and modifying  the sound, the study  of
these latter changes will lead us to a  knowledge
of  the physical changes that produce them.
                       6 
42
SIGNS OF OSCULTATION.
   The total absence of respiratory  sound  in  a
part, indicates that the air  no  longer  penetrates
there, either because something excludes its entry
into the pulmonary tissue, or because this tissue is
pushed away from the  parietes of the chest by
an effusion into  the  pleura.  An appeal  to  the
signs of percussion is here necessary to ascertain
in what manner the lung is invaded or surrounded.
If the sound on percussion  remains  natural,  the
obstruction is probably  situated in  some of  the
bronchial branches leading to the part, whilst  the
vesicular  texture contains its due quantity of air;
if it is dull, there is liquid or solid effusion, either
in the vesicular structure of the lung,  or  in  the
intervening pleural space; but  if  it  be  clearer
than usual, there is either emphysema of the lung,
or an asriform effusion in the pleura.  The inquiry
thus simplified can  now  be  specifically  directed
to  the distinctive  characters  of  individual dis-
eases, presenting either  of these  physical  condi-
tions.
  Sometimes the sound of natural vesicular respi-
ration  is  absent,  and   a   kind  of  hissing
bronchial   respiration is heard instead.    Now,
as the sound of the passage of the air in  the
bronchial  tubes cannot be usually heard through
the  spongy  and ill-conducting  vesicular texture,
it must be supposed that  either  the bronchial
respiration  is louder than  usual in these  cases, 
SOUNDS OF RESPIRATION.
43
 or, that the tissue of the lung is, by some change,
 rendered a better conductor  of  sound.  But in-
 creased loudness  of  the  bronchial respiration
 would  not explain the  absence  of the sound of
 the vesicular.    Abandoning, therefore,  this al-
 ternative, we shall find  in the other an explana-
 tion of both modifications;  for a  liquid or  solid
 effusion, at the same time  that  it  obstructs  the
 entry  of air into the  cells, likewise so condenses
 the tissue as to enable it to transmit, from  its in-
 terior, sounds that are not usually heard.
   A sound,  resembling  that  of  tracheal  respira-
 tion, is sometimes  induced by  disease, in parts
 where  vesicular  respiration  alone  is  naturally
 heard; and this  phenomenon is caused  by  the
 passage of the air in a cavern or ulcerated cavity
 communicating  with the bronchi.    The  sound
 thus produced, which is called cavernous  respira-
 tion, is  so  remarkable, and so like the blowing of
 air into any  little  hollow object, that the mind
 would at once, and, as it were instinctively, refer
 it to its true cause.
   There is  a  remarkable  class  of sounds   pro-
 duced by partial  obstructions  to  the  passage of
 the  air  through the  bronchial   ramifications.
 These sounds,  which  are  called rhonchi,*  may

  * I prefer the Latin term rhonchus to the French r«Xe, and the  Eng-
lish rattle; for it both expresses the subject better, and is more accor-
dant with the usual style of medical language.  If an English  term 
44
SOUND OF RESPIRATION.
be divided into the  dry  and  humid.    The dry
rhonchi  are  those  sounds  produced by the  pas-
sage of the air through bronchi, which have some
part of  their calibre contracted  by  a  substance
more  or less  solid.   This contraction may be pro-
duced by a partial tumefaction of the membranes
of  a bronchus, by the pressure of an adjacent tu-

mor,  or by some body, such as a portion of  thick
mucus, within its  tube ;  and the  form and  size  of
the isthmus,  of contracted point,  will  determine
the nature  of the sound.   Thus,  we  often  hear
an   acute  whistling   sound,    which  is  therefore
called the  sibilant  rhonchus;  and  as  we   know
that  such  a sound may be  produced   by  air
passing   through  a  small    circular  aperture,*


must be used, the  word wheeze, adopted by the  editor of the Medico-
Chirurgical Review,  is the least exceptionable. To that editor,
the profession is, and, in course of time, will hold itself indebted for
the candid and philosophical spirit, in which he, at an  early  period,
recognised and proclaimed the advantages of auscultation.
  *• It must be observed, that to produce a whistling sound by the pas-
sage of air through a round aperture, there must be a certain propor-
tion between the velocity of the air and the size of the aperture.  I
may remark here, that I think Dr. Forbes mistaken in translating
sibilant by the word hissing.  The rhonchus, called here sibilant, and
frequently pointed out to me by Laennec as such, is a perfect whistle;
whilst the sound  of bronchial respiration has more of the hissing
character.  Hissing and whistling, however, approach each other in
their physical cause ; the principal difference consisting in the more
forcible passage of air through a more flattened orifice in the former.
The two terms are identified in Latin and in French  by  the words
sibilare and siffier. The English have now so set apart the. former, as
a powerful means of expression, from the latter, which may be made
by no means contemptible for music, that they could not now well
spare the distinction. 
RHONCHI.                 45
it may be supposed that a contraction of this kind
causes it in this case.
   The sonorous rhonchus, which  sometimes re-
sembles  snoring, sometimes  the buzzing  of an
insect, sometimes the  bass note of a  violincello
or bassoon*  is rather  produced  by a  flattened
contraction  in  a  bronchus  of considerable  size.
This contraction, which leaves little or  no  gap-
ing aperture, throws the  air  passing  through  it
into  sonorous vibrations,  after  the  manner of
the reed of the hautboy, or the lips in blowing a
horn or trumpet; or, perhaps, the  production of
this sound  is still more  completely represented
in  the  manner  in  which a celebrated ventrilo-
quist  imitates,  with  his  lips, the  buzzing  of a

   The dry mucous rhonchus may be said to be a
coarse modification of the  preceding.  It resem-
bles  the sound  of a  click  wheel; and  is pro-
duced  by   a  portion  of  very   viscid   mucus
attached  to  the  interior of  a bronchial  tube
which yielding with  a jerking resistance  to the
air forcing  its  passage,  thereby causes  a  tick-
ing sound.   Such is, in  fact, the analysis  of the
sonorous rhonchus; for it only requires  that the
air should pass more  speedily, and the tickings
be  multiplied   until  they  seem   continuous, to
convert the dry mucous into the  sonorous  rhon-
chus. 
46
SOUNDS OF RESPIRATION.
   The humid rhonchi arise from the  presence of
fluids in  the bronchial tubes.   The commonest,
and the  most obvious  in its  nature, is the  mu-
cous  or  bubbling  rhonchus, a  sound which  the
mind at   once refers   to  the  passage  of  air in
bubbles through  a liquid.   It  is  more gurgling,
coarse, and  irregular,  when situated  in bronchial
tubes of  large size, because the bubbles are large
and unequal.  In the smaller  order  of bronchial
tubes, on the other  hand,  it  is  more equal  and
minute.   So we  can perceive at once what kind
of  sound this'rhonchus ought  to  have when in
the trachea or in a cavity  produced by  disease.
It is coarse  and gurgling,  in  proportion  to  the
size of the  tube or  cavity  in which  it  is pro-
duced, and  the  freedom with  which  the air
passes through the liquid; and, when  presenting
these  conditions,  the cavernous  rhonchus, gar-
gouillement,  or mucous rhonchus  or caverns, is
one of the most remarkable and important  signs
discovered by auscultation.  It would  seem un-
necessary to inquire  further  into the  physical
nature of the mucous  rhonchus, were it not that
the inquiry may enable  us  to distinguish  some
of  its  varieties  from  another  rhonchus; which
distinction is  an object of  considerable  impor-
tance.
   The sound of the  mucous  rhonchus depends
on  the bursting of successive bubbles of air which 
MUCOUS RHONCHUS.
47
pass through a liquid.   A bubble is a portion of
air  contained by  a thin film of liquid, which pre,
serves its continuity by  virtue of  its attraction
of aggregation ; and the bursting of this  bubble
is the overcoming of the resistance of this power
by  some other, so that the air escapes.   At  the
moment  of  its  escape by  the bursting  of  the
film,  its  slight  expansion communicates  to  the
body of air, of which it is now become  a part,
an  impulse  which, if sufficiently forcible,  pro-
duces  a sound.   Now  this impulse   will  be
forcible  in  proportion to the resistance  offered
by  the film of liquid at the  moment of its rup-
ture, and will therefore  be   greatest when  the
bursting  force  is  applied  so quickly  and sud-
denly  that  it  meets  with  the full  resistance of
the  newly  formed film, undiminished by the ex-
tenuating power of gravitation.
  Now  the bubbles of the mucous rhonchus  are
both formed and burst  by the  respiratoy  move*
ments  driving  air  through  the  liquid  in  the
bronchial canals; and  they   will  therefore pro-
duce  most  sound  in   those  bronchi  through
which the air  passes  most quickly.   These  are,
of course,  the bronchi of larger  order.   If  the
liquid be thin and watery, the bubbles pass,  and
burst in  quick succession, with  an  irregular  and
more  or less gurgling sound; but if it  be  viscid
they are fewer  in number, and may be  carried 
48
SOUNDS OF RESPIRATION.
on  in the tube some way before they  burst;  and
the  sound is  therefore  diffused  more  regular,
and  rare.  The quantity of liquid present in  the
bronchi  may, in some measure, be estimated  by
the  continuance  of  the  rhonchus.   If this ac-
company  only the  first part  of  inspiration  and
the  end of expiration, the liquid must be scanty
for it only interferes with the air when the  tubes
are  in  their contracted state  : But if the whole
of the respiratory act, even  to the  acme  of in-
spiration,  is  attended with the  bubbling sound,
then  it must be  apprehended that the  quantity
of   liquid is considerable, and  extends to  the
small bronchi.
  A* little liquid in the smaller  bronchial  tubes
produces the submucous rhonchus, a kind in which
the bubbles are fine and more crepitant; but they
often intermit, and in a full breath are diminished
to a slight roughness, accompanying the respiratory
murmur.
   The  rhonchi  of which  I  have  yet  spoken,
with the exception of the  submucous, are  gen-
erally   produced  in  bronchial  ramification,  of
above or about the size  of a crow's  quill;  it is
in those below these, or  perhaps  in  the necks
of the bunches of vesicles themselves that the
crepitant rhonchus has its seat.   This  is  likewise
a  bubbling   rhonchus;   but  it   is physically
and pathologically different from all  the  others 
             CREPITANT RHONCHUS.            49

The sound is  a gentle crepitation,  uniform and
continuing  to  the   end  of  inspiration.   It  is
compared by Laennec to  the  crepitation of salt
by' heat,  and  the resemblance  is pretty  exact
when common grain salt of commerce  is  thrown
on a heated iron.   It may also be tolerably rep
resented  by  rubbing transversely between the
fingers  and  thumb a lock  of  one's  hair  close
to the ear.   It is probable  that in the  cases  in
which the crepitating  rhonchus is  present,  the
calibre  of  the  last  bronchial   division   is  so
much diminished (by  the insterstitial  effusion)
that the air cannot  pass  through them, without
raising  the   mucus,  more  or less  viscid,  into
 bubbles;   which,   being   uniformly  small,  and
 bursting  regularly,  produce a  continued  succes-
 sion of   minute   crepitations.   The more  viscid
 the  mucus,  the more  distinct  is the  crepitant
 character  of the rhonchus.   It is perfectly so
 in the crepitant rhonchus of pneumonia.  In  pul-
 monary apoplexy and oedema, on the other hand,
 the liquid of the bronchi is thinner,  and  the rhon-
 chus being less  perfect in its  crepitation, is accor-
 dingly called subcrepitant.
     Thus  the  rhonchi  give  positive and direct
 indications of the state  of the  bronchial  tubes;
 nor can these  suffer  materially without either
 altered  secretion or change  in calibre  producing
 one or other of these rhonchi.   Respiration thus
                         7 
50         AUSCULTATION'  OF THE  COUGH.

modified is  generally  more  noisy  than  when
free,  and  a rhonchus,  particularly  the sibilant
or sonorous,  may  often  be  heard  through  the
spongy texture of a whole lung.   This does  not,
however,  prevent the natural  respiration  of the
healthy  parts  from  being heard;  for as  long
as two sounds differ in  nature,  the  louder  will
not  drown the  weaker,  unless the  dispropor-
tion  be  great.    For  example, the  sound of
respiration  may  be  heard although  a  much
louder  sibilant  rhonchus  accompany it;  and  a
deep  seated  rhonchus crepitans can often  be
distinguished in spite of  the  respiratory murmur
immediately below the  stethoscope.   We  fre-
quently hear a mixture of  several  rhonchi, occu-
pying adjacent tubes;  and  it sometimes requires
considerable attention to  separate and recognise
them.
   The modification  of  respiration  which  con-
stitutes  cough,  may often  be  consulted with
advantage  when  the  sounds  produced  in  the
ordinary respiratory act  are  doubtful  or indis-
tinct.   Cough consists of  a  sudden  and  forcible
expiration, succeeded by a  deep but quick inspira-
tion.   Now as in  this case the  passage  of the
air is more forcible and  perfect, the sounds  pro-
duced by   it  must  likewise be rendered  more
distinct  than  in common  respiration;  and not
unfrequently cough may force  air  through bron- 
AUSCULTATION OF  THE VOICE.          51
chi, too much obstructed to admit it by the com-
mon  respiratory  effort.    The  cough may,  of
course, be  modified  in the same way  as common
respiration ; and may, therefore, be accompanied
by  the  sibilant,  sonorous,  crepitant  and  mucous
rhonchi.   It  discovers  the  existence   of caverns
more  unequivocally than common respiration does,
whether the  caverns  be empty and yield only the
hollow  resonance  of  air  blowing in  them,  or
whether, containing a liquid, they  are the seat  of
the gurgling cavernous rhonchus.
   The  voice is another source of signs by   which
the auscultator may  judge  of  the state  of  the
lungs.   The  sound  of  the  voice, although  pro-
duced in  the  larynx,  is  propagated  to  the  air
in the  trachea  and   bronchial  tubes,*  as  out-

  * I do not at all concur in M. Laennec's opinion, that the  brochial
tree is a part of the instrument that originates the sound of the voice;
for if it were so, disease would affect the  voice  in a very  different
manner from what we find to be the case.  The hepatization of a lung,
or its compression by a pleuretic effusion should in that case raise its
tone to a treble.  I have often known them to exist without changing
it at all.  It is true that large  ulcerous excavations do sometimes ren-
der the  voice deep and hollow; but this is because the want of breath
prevents the patient from contracting the glottis sufficiently to pro-
duce more acute tones.  To receive as much air as possible to fill the
healthy cells, as well as the vast excavations in which it is wasted, the
glottis either contracts only enough to produce a low bass  note, or
does not contract at all, the patient then speaks in a whisper. I con-
ceive that the trachea and bronchi, besides supplying the air for  the
production of the voice in the larynx, act something after the manner
of a sounding board in musical instruments, reverberating and giving
fulness to the voice, but not essentially producing or changmg its dia-
pason. 
52        AUSCULTATION OF THE VOICE.
wardly it  communicated  to  that in the  mouth
and beyond it.   Accordingly, if  we listen  with
the stethoscope applied to the trachea  or upper
part of the sternum, we hear the voice through
the instrument, and  louder  than  by the  other
ear, inasmuch as the voice is outwardly  diffused
in a large space, but  there confined within  a
narrow tube.   If the stethoscope be applied to
those parts of the chest under which  pass bron-
chial tubes of considerable size, the voice will  be
heard there likewise, but it  is not  so  loud,  and
its  articulation is  less  distinct.   Over smaller
branches,  the articulation is  still further  con-
fused, and the voice is  heard only  in  a diffused
resonance.   In the vesicular structure they are
both lost, and over this  a  slight fremitus,  which
the voice produces  throughout the chest, can
alone be heard.  The  vocal resonance does not
extend  to the smaller  bronchi, because  they do
not  afford  sufficient  space for  its vibrations;
and also,  because their less tense and more mem-
 branous,   tunics  are   ill   adapted  to  reflect
sound.
   The vesicular texture is, as we  have  already
seen, a  very  bad  conductor of  sound;  hence
it prevents the vocal resonance in the  bronchi
 from being  transmitted to  the parietes of the
 chest ;   except  in  those parts where  bronchi
 of some   size  pass  close  to  the surface.  It 
AUSCULTATION OF  THE VOICE.
53
therefore  appears  that  different  parts of  the
chest will   present  to  the  auscultator   some
varieties of this  vocal  resonance,  and  it  is im-
portant  that  he   should   be  acquainted with
them.
   When  the  stethoscope  is  applied  to the
larynx or trachea, the voice seems  to  enter the
instrument as  loudly as  if the  speaker's  mouth
were applied to it.   This  phenomenon  scarcely
ever exists to its full extent in any  part of the
chest unless in a state of disease; and it is  there-
fore useful  to distinguish  between  it  and  the
natural bronchophony, which is to  be  heard un-
der  and near  the upper part  of the  sternum, in
the  upper part of the axilla, and  in the  intersca-
pular  space.    In  these  situations,  the voice  is
generally  Jouder  than  that  which, proceeding
from the mouth, strikes the other  ear,  but the
words seem to'be at the  end of the  tube, and
not  as  in laryngophony, to  pass  through  it into
the  ear.  Such is  the  impression,  and  although
it is illusory, and  arises  only  from  a  difference
in the  body  of sound,  it   should  be  attended
to, as enabling  us to make an important distinc-
tion.
   The degree  of vocal  resonance  in the  chest
differs  considerably in different individuals, and
the  causes of this difference are not obscure.   It
is loudest,  and  most distinct  and  extensive  in 
54         AUSCULTATION OF  THE VOICE.

those  persons  that  are thin, and have a  sharp
treble voice; and if these circumstances exist in
a great degree,  the natural  bronchophony may
extend to the mesial parts of the scapular, infra-
clavian,  and  mammary  regions, whilst in  the
usual places it  almost  amounts to laryngophony.
It  is  therefore  remarkable in young subjects
and in females.   In those,  on the  other  hand,
whose chests are  well clothed with  muscles  and
fat,  and  whose  voices are  deep,   the natural
bronchophony  is  obscure  and  confined.    The
vibrations of deep notes cannot be  extended to
very  narrow tubes, because  there  is not  space
for  their play;  and this explains the difference re-
sulting  from  the  tone of  voice, and suggests
that a  change of  tone in  the  same  individual
may  considerably vary  the  bronchophonic  re-
sonance.  In  all other parts  of  the chest  there
is either no resonance,  or only that slight vibra-
tory fremitus or thrill  that may likewise be felt
on  the application of the  hand  to  the parietes
during the  exercise of the voice.   This  vibra-
tion, which accompanies deep tones more  than
others,  is produced  by the  transmission of  the
sound,  not  through the  bronchial tubes,  but
through the common substance  of the  lung, and
is so slight as not to obscure  other signs to  any
extent.
  Disease   may  produce   vocal  resonance  of 
PECTORILOQUY.
55
either kind, in parts where  it does  not naturally
exist.   In  degree  equal to laryngophony, this
accidental   resonance   is  called  perfect  pecto-
riloquy ;  and  when  it  simulates   the  natural
resonance  under  the  sternum, it is imperfect pec-
toriloquy.
   These symptoms are produced by unnatural
cavities in the  substance of  the lung, to which
the  sound  of  the  voice is propagated  through
the   bronchi;  and their presence  is  a certain
proof of the existence of such  cavities.   When
the  stethoscope  is  applied to a part  of  the
chest under which lies one of these cavities, the
words which the  patient utters seem   to  proceed
from  that  spot;  hence the. term pectoriloquy.
The  distinction  between perfect and imperfect
pectoriloquy is, as in the case  of natural reson-
ance, whether the  voice seems  to  traverse  the
tube, or to remain at  the end;  and  the  physical
difference  producing the two modifications, con-
sists  in  the  size  and  situation of   the cavity.
The  most perfect pectoriloquy  is produced in
cavities of moderate  size, which  are  situated
 near the surface  of  the lung, and freely  com-
municate with  a  large bronchial tube.   If the
cavity be  deep  seated,  or  if  its communication
with the bronchi  be imperfect,  the  resonance of
the  voice  will  not amount  to  perfect pecto-
riloquy.   True  pectoriloquy, produced  by a ca- 
56        AUSCULTATION OF THE VOICE.

vity,  is generally abruptly circumscribed, so that
its limits can be distinctly traced.
   Pectoriloquy may be considered  a certain in-
dication of a cavity (almost  always tubercular,)
whenever occurring in  those  parts of the  chest
where  there  is  naturally  no  bronchial  reson-
ance.   When it is  heard in the other parts, it is
more doubtful,  but even there, if it be perfect,
distinctly  circumscribed, and  heard so on one side
only,  it leaves very little room for doubt.
   There  is  another  way  in which the   vocal
resonance may  become  a sign  of  disease.    As
we have noticed that bronchial respiration  may
become audible by the  condensation of the in-
tervening portion  of  vesicular  tissue;  so  the
same cause  may  transmit   to  the  surface  a
bronchophony,  which  in  the  healthy state  is
confined by  the  surrounded  ill-conducting tis-
sue.     Hence   inflammation,   oedema,   tubercu-
lar and sanguineous  infiltration  are  often at-
tended with  an accidental  bronchophony.    Ac-
cidental bronchophony frequently differs from that
existing naturally in certain  parts of the chest;
but of this difference, and of that called cegoph-
ony I shall hereafter speak.
   The sputa,  in  pulmonary diseases,  although
the signs  which they  give  are not  the directly
physical effect  of  the  lesions,  yet furnish  often
such  certain  indications, and  have  frequently 
EXPECTORATION.
57
such distinctive characters, that,  when consulted
together with the  physical signs,  they assist in a
most essential manner in  pointing out  the  nature
of  a disease.    I have,  therefore, in  all  my de-
scriptions of  the  pathology  and  signs, referred
to the character of the secretion of  the bronchi,
whenever expectoration presents it to our view.
   Such is  the general view that I  would give
of the physical signs  of  the state of  the  lungs;
and  as all  the  phenomena  noticed  have been
found  susceptible  of  explanation  according   to
the laws of  acoustics,  we  shall not  meet with
any  greater   difficulty   when   examining  them
more minutely as the  signs of particular diseases.
And  by thus  studying  auscultation,   not  in the
manner of  vague  and  unguided experience,  la-
borious to  acquire, and  burthensome to recol-
lect, but, by  a rational  examination  of its fun-
damental principles, and  an  application of  these
t° individual cases, the student will be enabled
to  understand  as  well  as  know  the  physical
signs  of a  healthy and diseased state,  and  to
avail  himself  of these for the  elucidation of dis-
eases  of the  lungs,  and  for the suggestion   of
means for their cure.

 Section HI.—On  the auscultation of the H$art.
  The signs that  are produced by the action  of
the heart  I have  found  neither so  certain  in
                      8 
58        AUSCULTATION OF THE  HEART.

their  indications, nor so intelligible in their caus-
es as  those  which I  have hitherto described;
and I  have, therefore, deemed  it proper to post-
pone  any attempt  to  include  them  within  the
plan of this work, until more  extensive  observa-
tion and study shall have supplied the desired  in-
telligence.   All  that I shall at present introduce
on the subject is a short exposition of a few signs
which experience seems to have proved to be un-
equivocal.
  The sound produced by muscular contraction
was first noticed by Dr. Wollaston.   It  may  be
exemplified by applying the palm of the  hand
to the ear,  and at the same   time  moving  the
fingers.  There is then heard a  rumbling sound,
like  the  rolling of a  carriage  on pavement, ac-
companied by a metallic  tinkling.  The  tinkling
is only a  resonant  echo produced in  the  in-
ternal meatus; * it is  the rumbling  sound  that
is produced  by the  contraction of the   muscles,
and is  the  same  that  in different  degrees  ac-
companies every instance of regular muscular ac-
tion.
  Without attempting the  difficult   task  of ex-
plaining the manner in  which sound is thus  gene-
rated, we   shall  here content  ourselves with
the fact.   It occurs  in  the contraction of the
heart, and constitutes  the sound  of pulsation,
♦ See the Section on Pneumothorax, 
           AUSCULTATION OF THE HEART.         59

 which is heard  in  the  prascordial  region.   This
 sound   is double,  and  consists of a  dull,  slow
 noise, immediately followed  by  a short  quick
 one,  to 'which  succeeds  a short interval  of si-
 lence.   The first sound is produced  by the con-
 traction   of  the  ventricles,  and  is  sychronous
 with  the  pulse;  the  second is  caused  by the
 contraction  of the auricles, and  in the  succeed-
 ing interval both are at  rest.   Lasnnec  rates  the
 average  measure of these, in ordinary pulsations
 to  be—the contraction  of  the  ventricles  lasts
 two-fourths; that  of  the auricles, one   fourth;
 and the interval  of rest one-fourth  of the whole
 period of a pulsation.*
   The sound of  pulsation is  naturally  loudest in
 the praecordium,  that  is, the space between  the
 cartilages of the fourth and seventh ribs  of the
 left side, and on  the  lower part of  the  sternum;
 the former part corresponding with the  left,  and
 the latter with the right side  of  the heart.   In
 persons  of middling  stoutness, and healthy  pro-
 portions, the sound scarcely extends beyond this
 region ;  in very fat persons it is still more limited;
 but  in  thin   persons  the pulsations  may  often
 be heard  in other  parts  of  the  chest; and  in

  * Or, noted musically, a crotchet, a quaver, and a quaver rest in a
 bar.  I think the auricular sound bears a shorter proportion; and ,we
shall be  more exact if, changing the measure, we note it a dotted
crotchet, a quaver and a crotchet rest. 
60        AUSCULTATION OF  THE HEART.
these cases the sound  will  diminish  in  the  fol-
lowing order of parts; the  left  side from  the
axilla to the situation of the  stomach ; the right
anterior and lateral regions ;  the  left  posterior
regions;  and lastly, where it is  rarely heard, the
right posterior regions.   If  there is  any devia-
tion  from this order, it  may be  concluded  that
there is either something unusual about the heart
producing the sound,  or  about  the circumjacent
organs transmitting it.
   Besides  the sound,  there  is  an impulse  or
shock communicated by the stethoscope  to  the
ear  during  the  contraction of the  ventricles.
This impulse is felt  only in the  precordial re-
gion, and if  the sternum   be short, sometimes in
the epigastrium.
   Such   are  the common  phenomena  discov-
ered by auscultation  in  the healthy and mod-
erate  action  of  the  heart.   The  following
are the most remarkable effects produced  by  dis-
ease :
   Simple dilatation increases  the  loudness  and
extent of the pulsations, but diminishes  the im-
pulse  that accompanies  them.    Simple  hyper-
trophy increases the impulse, and  diminishes  the
sound of the  pulsations.   Hypertrophy and  di-
latation  equally  conjoined, or active  aneurism,
increase both the impulse and  the  sound in de-
gree and in extent;  but  such  an equal  com- 
          AUSCULTATION OF THE HEART.        61

bination  seldom  exists,  and  the prevailing  dis-
ease is generally most apparent by its effects, to
which some of the others  may  be  superadded.
Thus, in hypertrophy, with slight dilatation,  the
degree and extent of impulse may  be  increased,
whilst the  sound is  diminished in  degree,  but
more diffused in extent,  &c.  If  any of  these
symptoms are heard  more  on  one side of the
precordia than  on  the  other,  it is to  be  con-
cluded that the disease lies chiefly  in  that  side
of the heart.  The ventricles are the most usual
seat of disease, but  the auricles not  unfrequently
suffer also, and  then the signs   of  derangement
are  more perceptible in  the  upper part of the
precordial region. ■  When the  auricles  are  di-
lated, their sound can often be heard  as  well
under the clavicles as in  the  praecordia.   A va-
riety of  irregularities may occur in the rythm of
pulsation of  the different parts of the heart.
   Besides the  sounds produced  in  the contrac-
tion of the auricles  and  ventricles,  there  some-
times occur concomitant sounds of  a  peculiar
kind;  apparently  produced by some   derange-
ment in  the  action of the heart or large vessels.
Such are the murmur follis, murmur  limm,  pur-
ing fremitus, fyc.   These  are not  only  heard
in the region  of the  heart,  but sometimes  also
along the  course  of  large  arteries.   Laennec
considered them to  be  of the  nature of  sounds 
62         AUSCULTATION  OF THE  HEART.

produced  by  muscular  contraction,  in  these
cases of  spasmodic nature, affecting the  heart
or arteries in which  the  symptom is perceived.
I am myself  disposed  to think  that  were  we
better acquainted with the  laws of the  produc-
tion of sound, we might find that it  may  be  ex-
cited  by the motion of liquids, as well as  by that
of air, in or against  solids  of a  particular form  ;
and  that we might find  a more satisfactory  ex-
planation  of the  phenomena  in  question  in  the
moving mass of blood  being thrown into sono-
rous  vibration by some modification in its course.
Such a modification might be produced by thick-
ening or irregularity  in one of the  valves of  the
heart, or by spasmodic action of some of the co-
lumnaa carnea3; by any obstacle in the calibre  of
an artery, &c.; and  these causes might, as in  the
analagous case of air, render the  passage  of  the
blood sonorous, instead of, as it usually is, silent.
  These  are but   conjectures;   but   the  at-
tempts of others  to  explain  these phenomena
have not assumed  more  certain form.   I  leave
this   subject,  therefore,  having introduced it
here, only because, as  in  practical  auscultation,
the sounds produced by the heart will  often, al-
though not the specific object of examination, con-
trive to force themselves on the  attention.
  Having made ourselves  acquainted  with  the
general acoustic economy of  the chest, we ha\e 
             MEDIATE AUSCULTATION.           63

now to consider the  manner  in  which  we  may
practically avail ourselves of this  knowledge  in
the auscultation of  particular diseases.
   All the acoustic phenomena of the  chest  may
be heard by the simple  application of the ear  to
its parietes.  In this immediate method of auscul-
tation, the sound  is  communicated through the
parietes of the chest to the air in the  hollow  of
the external ear  and  meatus,  which being ex-
cluded from the access  of all  other  sounds,  re-
ceives, in  unmodified intensity,  every  vibration
that emanates  from the chest.  This  method has
the advantage  of  being  simple,  expeditious, and
easily  acquired;  but it likewise  has  disadvan-
tages, which render it less  eligible than mediate
auscultation.   The direct  application  of the ear
to the chest would  in some cases  be indelicate,
and in   others  disgusting;  and  it is  imprac-
ticable in some parts,  as  the axilla,  and at the
junction  of  the clavicle and  humerus.   More-
over, its  indications  are  more  equivocal  than
those obtained  by   the  stethoscope ; for,  besides
extraneous  noises, produced  by  the  friction  of
the  hair and clothes,  sounds  of  neighboring
parts, transmitted by the mastoid  and zygomatic
projections and other parts of  the  side of the
head,  in  contact   with  the  chest,  are likewise
sometimes  heard  in a  confused  manner, and
obscure  the immediate  object of examination. 
61
MEDIATE AUSCULTATION.
  These objections, which  Laennec  has  pointed
out I consider  of  sufficient  weight  to authorise
our preference of  the  stethoscope  in  general
practice.   1  have,  nevertheless,  not forsworn
immediate auscultation;  and in cases requiring
little  nicety  of  examination  1  often  avail my-
self of  the greater ease and  celerity of this me-
thod,  particularly  in exploring  the  posterior
parts of  the  chest,  where  the  application  of
the  stethoscope  requires  a  somewhat  tedious
caution.
  The  stethoscope  is  an  acoustic  instrument
employed in the auscultation  of the  chest.   Al-
though  its construction  is simple,  and  its appli-
cation  easy,  yet  I  think we shall  lose  nothing
by  giving a little attention  to analyze  its physi-
cal  office, and  render  intelligible  the principles
of  its use.  When we  bring to the  aid of our
senses  artificial  instruments,   we  can  neither
perfect  their  construction, nor fully  avail  our-
selves of their application, without a knowledge
of  the physical principles on which they assist our
organs.    No one can make a proper use of the
microscope  or telescope without  understanding
the laws of optics; and I hold that  the  easiest,
the most agreeable, and the most certain  road  to
knowledge of stethoscopic phenomena, is  through
a study of acoustics.
  The  sounds heard  by  auscultation are seve- 
THE  STETHOSCOPE.
65
ral in nature and in origin.   Those  of  the voice
and respiration are produced in  air ;  that is,  air
is the  vibrating  medium:  the  sounds  accompa-
nying  the motions  of the  heart, on  the  other
hand, originate in a solid or liquid.  This circum-
stance  suggests  the  expediency   of  varying
the  conductor, according  to  the principle  for-
merly pointed  out,  that  a sound  is most effec-
tually transmitted  by bodies of the  same density
as that in  which  it  is  produced.   Again, some
sounds, as that  of respiration,  are  diffused  and
weak, and by concentration may be  made more
distinctly  audible;  while others, as  those of the
voice,  are produced in a circumscribed  spot,  and
are loud enough in themselves.
   Now we shall  find that  all  these  differences
may be met by a  little modification  of the same
instrument.  First, let us  take  a  solid  cylinder,
which shall be excellent  in conducting power,
and particularly of  density  approaching to that
of  the contents of the chest, from which  origin-
ate the sounds  to be  conducted.   Nothing  will
better fulfil this end  than wood,  of  light  sub-
stance, but  with  considerable  rigidity  of longi-
tudinal fibre.   Deal,  which on   account of  a
modification of  the  same  property, is pre-emi-
nently  useful  in  the construction of  musical
instruments,  most  completely  answers  to  this
character; and cedar possesses,  in  addition,   the
                       9 
6H
THE STETHOSCOPE.
advantage of  elegance.   With a  solid  cylinder
of cedar, then, of  convenient size, say  ten or
twelve  inches long,  and  one inch and half in
diameter, we shall best be enabled  to hear  all
those sounds  that originate  in  solids.  If  this
cylinder   be  perforated  longitudinally  through
the centre, by a hole a quarter of  an inch  in  di-
ameter, this central canal will be  well suited to
transmit sounds  that  originate in  air  in circum-
scribed   spots.   To  concentrate  the  diffused
sounds,   and to expedite  the  examination  by
making  the  stethoscope take  in as large  an  ex-
tent of  surface at  a time as  possible, this  cyl-
inder is  hollowed out  at one  end  into  a conical
cavity, the apex of which terminates  in the  cen-
tral  canal;  so  that  all  the  sounds  that enter
the  excavated  end  are  reflected  up into this
canal, which conveys them to  the  ear.  To  re-
convert  this  into a simply perforated  cylinder,
a perforated plug or stopper  is adapted,  of size
and form exactly  corresponding  with  the coni-
cal excavation.  Thus contrived, the stethoscope
is adapted to  transmit sounds  to  the   ear, either
by conduction, along the fibres  of the wood, or
by reflection, through the central canal.
   Such are the general  principles of the  con-
struction of the stethoscope ;  for more particulars
I must refer to  the plate and  its  accompanying
explanation. 
THE  STETHOSCOPE.
67
We  have  had  occasion  to remark  that  aus-
cultation  with  the stethoscope  requires  more
practice   and  attention   than  auscultation  with
the naked ear; but this slight addition of trouble
will be more  than  repaid by   the greater dis-
tinctness and certainty  of  its indications.  It does
not   suffice  that   the  stethoscope  should be
resorted to only where  delicacy forbids the  prac-
tice of immediate auscultation;  for it will be  of
little  use to  the  person whose  ear is not  con-
stantly accustomed to  it.   By using the  stethos-
cope  habitually,  we  obtain  all  the advantages
of  universal  applicability   and  distinct  indica-
tions,  that it presents, without losing those  of
greater ease . and  celerity,  which  if   particular
instances  should  render them of paramount im-
portance,  are   still  open   to  us in  immediate
auscultation.
   A little well-regulated  practice in the use  of
the stethoscope is worth  a  volume  of directions
and cautions.    By this  the observing  student
will soon find how necessary it is  to  keep the
instrument closely applied  both  to the chest  of
the patient and to his own ear, so  that there be
no communication  between  the  interior  of the
tube and the external air; to hold it  in  such  a
manner, by the end near   the  chest, that no ex-
traneous sound be cormnunicated byfr iction  of
contiguous clothes  or  otherwise;  to avoid  pres- 
68             the stethoscope.
sing  so hard  upon  it  as  to  produce  pain,  or
interfere with  the  respiratory  movements;  to
avoid  too   stooping  or constrained  a posture,
which may cause  tinnitus  aurium,  and  render
hearing obtuse;  and to  conduct  his  examination
of the series of  signs with as little  fatigue to the
patient as the case will permit.
  The patient should  not have  over the  chest
more  than a single  garment of linen  or  cotton,
and  this should  be  kept  smooth  under the  in-
strument.  To explore the  anterior and  lateral
regions the  patient may be either  seated  on a
chair,  or   lying near  the  edge  of  a  bed;  the
examination of the back must be effected  in the
sitting posture   with  the  body  bent  forwards.
It is  always  the best plan  to change  sides  in
order to examine the opposite  side of  the chest,
and not lean across, unless it be for the  compari-
son   of  corresponding  points  on  both  sides,
where it is important that the  two impressions
should  succeed  quickly to  each  other.   The
attentive student  will  soon  find how  far these
precautions are   necessary; and  to what  degree
tact, furnished by experience, may  supersede  or
modify them.
   It is generally expedient to follow a particular
order or method in conducting  a physical exami-
nation of the chest.   I usually begin  with per-
cussion, first on the clavicles, then  on the  ante- 
EXAMINATION OF PHYSICAL SIGNS.        69
rior parts of the  chest,  proceeding from  above
downwards;  next on the  lateral portions,  begin-
ning at the axilla, which are exposed by  the pa-
tient raising his arm up  to his  head.  The  same
parts  are then  examined,  in like 'order, by the
stethoscope,  with due  attention to the  indications
just  obtained  by percussion.   For the percus-
sion of the posterior part of the chest,  the pa-
tient  must sit  with  his  head bowed forwards,
and his arms crossed over his  breast;  and  after
due care in exercising percussion in  this  more ob-
scure region, the easier test  of auscultation may
be parctised.
   For  exploring  the  respiration,   cough,  and
most  of  the  rhonchi, the   stethoscope should
be  used without its  stopper.   The   signs of the
voice are least equivocal,  when heard  with the
stopper  in,  and   to determine the extent  of a
rhonchus cavernosus, or crepitans, or of a   bron-
chial  respiration, it  is  often  useful  to resort  to
the instrument in  this  form.   The heart is  exam-
ined  in  the  same  manner;  but when it  is
wished to hear the sound  of  pulsation without the
impulse, the stopper should be  taken out.
   The physical examination  of the  chest,   Avhen
adroitly and  systematically   conducted,  is not
nearly so tedious  as  might be imagined, and  it
is surprising  with what  ease   and   expedition  it
may  be performed after some  experience.  A 
70        EXAMINATION OF PHYSICAL SIGNS.

few minutes will, in a majority of cases,  suffice to
furnish us with information far more certain than
can be obtained in any other way; and,  in cases
of obscurity and difficulty,  a much  longer  time
devoted  to it should not be considered  as thrown
away.  But in all cases time should be deemed of
much lower value than a true knowledge  of the
disease ;  and I hold it to be the duty  of the  con-
scientious physician to consider this, and  the  em-
ployment of curative measures  founded  upon it,
as the paramount objects of his care.
  ' Prudens interrogatio dimidium est  scientiae;'
and if its application to medicine does not, at  the
outset, always obtain the  desired end,  it is  only
through its means  that  we  can  hope to  place
medicine on a  footing with other sciences,  and
render the art in any degree certain and effective. 
PART  II.
   OF THE PHYSICAL SIGNS OF DISEASES OF THE
              LUNGS AND PLEURA.
  Hitherto  we  have  considered  physical signs
only   with  relation  to  the natural,  or physical
state, and the general pathology  of the  lungs; it
now  becomes our  task to study  the forms  or
characters  that individual diseases present  to  the
auscultator.   To understand  the physical signs
of a disease, it is quite  obvious that we must  be
acquainted with its  pathological characters; for
they  are naturally  inseparable: and  I  view it
as not among the least advantages of physical ex-
amination, that it directs  our attention through
a  confused   crowd  of uncertain  and  equivocal
symptoms of general derangement,  to  that sub-
stantial  and  primary lesion,  which, if not  the
starting  point  of all, is that against which our
practical efforts  are the most required.
   My object will  be, not to enter  into  minute
details of  pathology  and morbid anatomy; but
as far as  my  own  observations  and  those of
others will enable me, to explain the  general phy-
sical  nature  of the  changes  which,  in individual 
72
ACUTE BRONCHITIS.
diseases,  modify the  acoustic   relations  of  the
lungs and pleura.  I shall  generally  confine  the
text to pathology, properly so  called,  but I shall
not omit to append, in form  of notes,  a descrip-
tion of  the  general  morbid  appearances  found
after death, by a comparison  of which  with  the
physical  signs during  life, the  real  nature of a
disease is  to be known.   I begin with the diseases
affecting the air tubes of the  lungs.

                   CHAP. I.
             Section I.—Bronchitis.

   The pathological cause of bronchitis, or pulmo-
 nary catarrh, is an inflammation and altered secre-
 tion of the  mucous membrane  of  the  bronchia.
 There are several varieties,  and,  perhaps, even
 species of this disease; but  as they pass insensi-
 bly into each other, and as the physical signs of all
 are frequently combined  in one, I  shall  compre-
 hend in this  section their general description.
   Inflammation of  the mucous  membrane of the
 bronchi  at first causes  tumefaction  and  partial
 obstruction  of their  calibre.   This  partial ob-
 struction,  or constriction, when it occurs  in  indi-
 vidual points, modifies the  passage  of  air through
 the  bronchial  tubes,  and,  producing vibrations,
 converts these tubes  into instruments  of music.
 If the whole periphery of a portion of a  tube be
tumified, the  constriction is circular, and  the air 
* PATHOLOGY AND SIGNS.
73
passing  through  it  produces a whistling sound.
This  constitutes  the rhonchus sabilans.   If the
tumefaction be unequal, so that  the  constricted
portion  preserves a  flattened aperture, then  a
sound is  produced   after the  manner  of reed
instruments, or, rather, of the  horn or  trumpet,
by the rapid alternate compression and dilatation
of the air passing between two vibrating  laminae,
or surfaces.  Such,  I conceive,  is the  rationale
of  the   rhonchus sonorus.   The  extent of the
constriction,  its situation,  and the secretion  lu-
bricating  the  tube,  will  variously  modify the
note  and tone.   The   larger   bronchial  tubes
alone can produce  deep  or bass notes;  but  it
is  plain  that  they  may also yield  high ones.
When  a  deep  rhonchus  sonorus  is produced
in a  bronchus  near  the  surface  of the  lung,  it
communicates  a  slight  vibration  to  the corres-
ponding  paries of  the  thorax,  which  may  be
felt  by the  hand.   This  mechanical  vibration
is often  perceived internally by the  patient  him-
self, although he does not hear  the  sound that
produces it.
  The  sonorous and sibilant  rhonchi, then, we
find to be the  first  physical  signs of pulmonary
catarrh,  and  these   are  sometimes  present be-
fore the cough  becomes pronounced, and  while
the  general  symptoms  only indicate  a  nasal
coryza.   As the inflammation attacks  the  larger
                     10 
74
ACUTE BRONCHITIS.
bronchial  ramifications  first,  the  rhonchus  is
usually grave, and frequently resembles the  pro-
longed note of a violoncello, and  sometimes the
cooing of  a dove.
   After a while the  inflamed  membrane  begins
to secrete a thinnish  saline  tasted liquid,  which
at first mellows the  sound  of  the  rhonchi, but
afterwards increasing, interrupts  it by  the for-
mation of  a  bubble, which momentarily  stops the
vibrations,  and  then  bursts.   These  bubbles
increase  in  number  as the secretion  increases,
and are at  last  produced  in such  a  continuous
succession, that the sound of the former rhonchi
ceases, and  is replaced by a new  one  produced
by  the  successive   formation   and  rupture  of
bubbles in the air tubes.  This  is  the mucous  or
bubbling  rhonchus.   In the  larger  bronchi the
mucous  rhonchus is composed  of  bubbles of un-
equal size,  causing  a gurgling  sound;  but  in
the smaller tubes  the bubbles are  more  uni-
formly small, and the rhonchus  may be  called
finer;  they  are  still, however,  somewhat un-
equal ; and even  when in the  extreme bronchi
they can be  distinguished  to be liquid [bubbles,
and  quite different  from  the  uniform dry cre-
pitation  that constitutes  the  rhonchus  crepi-
tans.  I have been  minute  in this description,
because  the  distinction   is important,  as   on
it  depends   the  diagnosis   between  an   acute 
PATHOLOGY AND SIGNS.              75
pulmonary catarrh, and the  first  stage  of pneu-
monia.*
   The next modification in  the rhonchus is  pro-
duced  by  the   thickening   of the  mucus   con-
tained  in the air  passages.  This  change, which
usually diminishes the  severity  of  the  cough,  is
marked by the mucous  rhonchus  becoming drier
and more sluggish, from   the  resistance opposed
to  the air  in passing through  the   inspissated
liquid.   This resistance   increases with the in-
creasing  spissitude  of the  mucus,  and  some-
times amounts to a  complete obstruction  of the
tube;  and in  this case  the  sound   of respiration
ceases  in  the part  supplied  by   it.   More  fre-
quently, as the mucus  becomes  thick,  its  quan-
tity  is diminished,  and  then  it  only partially
obstructs  the tube.    This  straitening  of  the

  * An ignorance of this.distinction, and of the elements of the rhon-
ehus crepitans, seems to have given rise to M. Andral's  assertion,
(Clin. Med. t. ii.) that  this rhonchus may be produced by a simple
acute bronchitis ; an opinion, as M. Lsennec remarks, supported by no
observation ; and, I may add, perhaps attributable to his having neg-
lected the efficient clinical instructions of the great inventor of aus-
cultation. Let not this expression of opinion  be construed  into a
want of  deference towards M. Andral. I have  been witness  of the
devoted zeal of this able pathologist, I have watched his  labors, and
let me add, with  sentiments of real gratitude,  I  have profited  by his
instructions; and were I required to name a man whose indefatiga-
ble industry is worthy of imitation,  whose talented mind commands
admiration, while his amiable deportment ensures esteem,  and to the
fruit of whose labor we may look for the advancement  of medical
science-the name of Andral would gladly be brought to my lips. 
76
ACUTE BRONCHITIS.
calibre  may  cause  a rhonchus,  and  being soft
and incapable of vibration itself, the  sound  pro-
duced is a whistle,  in  which  air  is  the only vi-
brating body.    Occasionally,  however,  at this
period of  the catarrh  a  ticking sound  is  heard,
like that produced by the click wheel of a  small
clock.  This is caused  by  the  pellet of thick
mucus at  the orifice  of a bronchial ramification
which acts like  a loose  valve, yielding, in  sue-'
cessiye  jerks, to the air pressing for passage.  A
change  in the  force of  respiration may  much
modify  these  several  sounds.   Thus, the for-
cible   expiration  and  inspiration  accompanying
a cough  may  produce the  clicking  sound,  or
even  the rhonchus sibilans, in a  tube  which,  in
ordinary respiration,  is  totally obstructed  with
mucus; it may  convert the  clicking into sibila-
tion, and  this   into the   simple  sound of  the
passage of the  air; the obstacles  yielding, in all
these cases, to the increased  force  of  the  pass-
ing air.  It is therefore useful to  avail  ourselves
of this  simple mode in our examination ; for,  on
desiring the  patient to cough,  the  nature  of the
obstruction may  frequently  be  made apparent
by the  momentary presence of one  of  the above
signs.
   The uncertainty in which  the  signs  of  auscul-
tation sometimes leave us  is completely removed
by. percussion.   The sonorousness of  the  chest 
PROGNOSIS.                 77
is never sensibly  impaired  by catarrh; and.  ac-
cordingly, the  partial  suspension  of the respira-
tion in a part of the chest, in  this disease,  cannot •
be erroneously ascribed to hepatization, or an ef-
fusion in the pleura.
  The extent, as well as the seat  of the catarrh,
may  be  determined  by  the rhonchi.  These
are  usually  confined to  a portion of  one  lung,
and  the disease is not  dangerous ; but  if they
occupy  a large  extent of both  lungs,  there  may
be considerable danger,  the fever  and dyspnoea
being very  great.   Cases  of this kind  proving
fatal, are,  in this  country, erroneously consider-
ed  peripneumomc.  In  some  cases of continued
fever the  rhonchi indicate a catarrh in every
part  of the lungs: they  are  the  sibilant,  sono-
rous, and mucous  rhonchi; and  when  thus  mix-
ed, Lasnnec used  to  designate  them  rhonchus
canorus.   Their presence may be considered  a
very unfavorable  sign,  and is seldom indicated
by the   cough  or  other symptoms, being, as  it
were, masked  by  the  general  affection  of the
system.    In general, an acute catarrh is  more
dangerous in proportion  to  the age  of  the  pa-
tient, and  this probably depends on  the differ-
ent  capability  of  dilatation  in  the  pulmonary
tissue;  being greater in  young subjects,  it  per-
 mits supplementary respiration  in the  healthy
parts to supply the defect of  the diseases.   Be- 
78
CHRONIC  BRONCHITIS.
sides these,  as  in all  diseases  obstructing the
respiratory function,  the  dyspnoea  (and hence
the danger,) will be great  in  proportion  as  this
function is naturally or  constitutionally active  in
the individual.
   If  the catarrh  terminates  in cure, the  expec-
toration becomes  thicker, and  more concocted,
as the ancients termed it.   It  is  voided  without
irritation, in  rounded,  distinct  pellets,  consisting
of an opaque, greenish  mucus.   These and the
cough diminish, and are confined  to the  morning,
after waking, and  a few times in the  evening, and
at last cease  altogether.
   But, if neglected, the   catarrh  may  assume a
chronic  form.  The   cough  and  expectoration
then  continuing, the latter  is  usually at  first  of
the same quality  as at  the  termination  of the
acute stage, but it sometimes  becomes diffluent,
less viscid, and of  a dirty brownish color.  After
a while,  it frequently is  mixed  with  pus,  and
sometimes becomes completely  purulent,  pre-
senting all varieties in odour and  consistence  that
pus, from other sources,  offers.  To  these  are
sometimes added shortness of breath, hectic fever,
night  sweats, emaciation, and,  in short, all  the ra-
tional symptoms of phthisis.
  Deprived,  as we  are,  of the  means of diag-
nosis by these fallacious  signs, let  us  endeavor
to supply the defect  by  appealing to  the  phy- 
PHYSICAL SIGNS.
79
sical indications.   And here  let  me  caution  the

young auscultator  against  too   perfect a confi-
dence in his examinations, and too hasty  a  conclu-
sion from their results.   As  the  diagnosis is  im-
portant, so is it  often difficult.

   The symptoms heard  by  the ear  in  chronic
catarrh,  are  the mucous  rhonchus,  in most  of
its varieties, shifting and  intermitting  from  time
to time, aud,  occasionally  the  sibilant,  the pre-
sence of which is explained  by  the  sputa;  the
sound  of respiration, sometimes  diminished,  but
usually unimpaired,  or even  puerile  ; * and  the
chest, on  percussion,  yields  a  clear  sound.   It
will be perceived that  all these  signs are  nega-
tive, and none of  them  characteristic  of  this mo-
dification of catarrh.   It  is therefore  in the  ab-
sence of the signs hereafter to  be  described,  as

  * The presence of the dyspncea, in these cases, where there is no
obstacle to the entrance  of air into the lungs,  nay, where the puerile
respiration shows it to be more perfect than usual, is ascribed  by La-
ennec to an increased ' besoin de respirer.'  In the present  instance,
however, I see nothing more in this explanation  than an expression
of the fact. There is nothing in the  state of the system that indi-
cates the want  of an increased activity  in the respiratory function.
The quantity and quality of the urine, and the other  excretions,  may
be taken as pretty correct criteria of the extent of the chemical chan-
ges by respiration.  I think that we must look rather to the  change in
the nature of the bronchial mucus for an explanation of the point in
question.  I have elsewhere (Trans, of Med. Chir. Soc. of Edin. vol.
ii. p. 100.) pointed out an important part which this  mucus performs
in assisting the  action of the air on the blood.  It is easy to conceive
how a diseased state may unfit it for this office, and impair the chemi-
cal function of respiration, however perfectly the mechanical  part be
performed. 
80             CHRONIC BRONCHITIS.
 peculiar to phthisis, that we  must  recognise  the
 character of chronic catarrh.   As,  however,  ne-
 gative are weaker than  positive proofs, so  must
 they be multiplied to  be rendered  certain.  If,
 after  having  repeatedly  examined  the patient,
 at different  hours  during several  weeks,  there
 are  found  no gurgling  cavernous  rhonchus, no
 cavernous  respiration,  no  pectoriloquy, and no
 constant absence of the respiratory  murmur, and
 of the sound on  percussion, then, in spite of  the
 general  symptoms, we may, with tolerable  certi-
 tude, pronounce the disease to  be  simply pulmo-
 nary catarrh, and  a still further  multiplication  of
 examinations will remove all doubt.*
    The long continuance  of chronic  catarrh  may
 entail an organic change in the  lung,  which will
 almost  destroy  all distinction  between its  signs
 and  those  of tubercular  phthisis.   The bronchi,
 long the seat of  chronic inflammation, and ex-
 posed to  the  straining  influence   of  repeated
• paroxysms of cough,  become  hypertrophied and
 dilated.
    I  offer this explanation in  preference  to  the

   * This passage I have given nearly in the words of  the illustrious
 discoverer of auscultation; yet, aware as he was of the attention re-
 quired in the examination, and of the falibility of a hasty judgment,
 I have more than once seen himself give proof in point by the failure
 of a premature diagnosis.  If then, one, from knowledge and experi-
 ence so profoundly acquainted with his subject, was,  through inad-
 vertency, led into error, how much more circumspect should they be
 who have not his experienced tact, and his talent for improving ob-
 servation. 
DILATED BRONCHI.             81
opinion of Ltennec, that the  bronchi are dilated
by the accumulation of a  thick mucus in them,
for this reason—that the sign of such accumula-
tion, namely,  a  suspension of  the  sound  of re-
spiriation in the  part is scarcely ever observed
in chronic catarrh; nay, the  absence of this sign
serves to distinguish the chronic from the  acute
disease.   The   dilatations are  produced, I  ap-
prehend, in  this  manner: in the  forcible  expi-
ration of coughing,  the exit of the  air is par-
tially impeded by a coarctation  of  their calibre;
the  air thus  confined,  therefore, sustains  the
partial pressure of the respiratory forces, and in
its turn presses  the yielding  parieties  of  the
bronchi  against  those portions  of the surround-
ing pulmonary  tissue in  which there is no ob-
struction to the exit.   This  pressure, frequently
repeated  on  membranes  already modified  by
disease,  ends in  producing  a  permanent dilata-
tion.   In  accordance  with   this  explanation,
these dilatations are chiefly produced  where the
 fits of coughing are  very violent  and convulsive,
 as in pertussis and catarrhus senilis.
    These  dilatations, at  different  points  in  the
 course  of  the   tubes, form cavities  of  various
 sizes, still  lined  with  the mucous  membrane,
 which  can be traced from the  undilated portions
 of the  tubes.   It can be easily conceived  how
 these   cavities  may  give  rise to pectoriloquy,
                       11 
82
CHRO.MT1C  BRONCHITIS.
  cavernous respiration,  and most of  the other
  phenomena  by   which   a cavity  from  tuber-
  cular  excavation  is  distinguished.    The  diag-
  nosis is, perhaps, in these  cases,  of less import-
  ance, as art has  little power over either form of
  organic  disease ;  but when on the  subject  of
  phthisis,  I  will  endeavor to  point  out some
  means  of discrimination,  available at  least  to
  the experienced stethoscopist.
    Dilatation of the bronchi, when extensive, may
  produce habitual  dyspnoea, by obliterating por-
  tions of the pulmonary texture.

         Section  II.—Pituitary Catarrh.
    The varieties of catarrh, which  Lasennec terms
 from the  nature  of the expectoration,  pituitary
 and dry  catarrh,  require  to be noticed as far
 as  they  differ in their physical signs from  mucous
 catarrhs.
   In the pituitary  catarrh,  or  humeral   asthma,
 as  some of our  own  practitioners have  termed
 it, a  thin,  colorless,  glary  liquid,  is secreted  in
 abundance  by the bronchial  membrane.  This
 flux comes  on   in   paroxysms,  attended  with
 dyspnoea and cough, which  are  relieved  by the
 expectoration of the liquid.   It  does not appear     »>
 that  the  membrane  becomes   much   tumified,
unless occasionally by the co-existence of  a slight
degree  of  oedema.    The  dyspnoea  and  cough 
pituitary  catarrh.
83
are therefore to be ascribed to  the quantity  of
fictitious secretion.
  The   respiratory  murmur  is weak, accom-
panied  with  the sonorous  and sibilant,  rhonchi,
occasionally modified by  bubbles  of  the mucus,
so as to imitate the  chirupping of  birds, and
sometimes  heard distinctly  with  a  liquid mucus,
rhonchus.  When a slight oedema is present the
humid  crepitant  rhonchus may also be distin-
guished, but this disappears  in  the  interval  with
the other signs.  The chest, on percussion sounds
well throughout the attack.
  This  catarrh may be  confined  to one  or two
paroxysms, or  it may attack  daily  for  months
and even years.  Like most other  serous fluxes,
it is  very difficult to remove  when  once estab-
lished, and frequently  arises from  the  develop
ment of a  number of military tubercles in the
pulmonary  tissue.   Its  long  continuance  pro-
duces   that  change  in the  mucous  membrane
that commonly accompanies, or is  produced by,
profuse  watery discharges.   This  is a degree
of  atrophy which  is  sometimes attended with
perfect  pallidity, and  sometimes with  irregular
striag or patches of  sanguinous injection.
  From what I have seen of these  cases,  1 am
disposed  to   consider   the  prevailing  evil   to
be a debility or want  of tone  in  the vessels  of
the bronchial  membranes,  on  account  of which 
84
DRY CATARRH,
the  watery  parts  of  the  blood transude with
little  restraint and  little  modification.    Inflam-
mation may have been  in  the first instance the
cause of this loss of tone  in  the vascular  fibre
and even although it does not afterwards continue,
phlogistic  agents  may  aggravate  the   disease,
by increasing the force of the circulation, by which
a flow of liquid becomes  directed  to the weak-
ened part.

           Section III.—Dry Catarrh.

  The dry catarrh  of  Laeennec is,  perhaps,  in
its general signs, more allied  to  asthma  than  to
the  preceding  diseases.   It consists  in a san-
guineous  congestion  in  the  membrane  of the
bronchi, which causes  tumefaction,  and  partial
or complete obstruction in  their  calibre.   There
is with  this a scanty secretion of  thick,  semi-
transparent, ash-colored  mucus,  which  arranges
itself in globules,  completing the obstruction  of
the tube.
  The  stethoscopic  sign  of   this  affection  is,
accordingly, a suspension of the sound of  respira-
tion   in   the  part  affected,  while  the  corres-
ponding  part  of  the  chest  sounds  perfectly
well.   Sometimes the  obstruction is  not  quite
complete, and then  there  may  be  a slight sibi-
lant or a clicking rhonchus.
  The severity of this affection  depends  entire- 
PATHOLOGY  AND SIGNS,
85
ly on its extent, and this may vary from a  degree
not at all deranging the  general  health  to  one
producing severe and oppressive asthma.   Many
persons,   apparently  in  perfect   health,  only
perhaps subject to some shortness  of breath on
exertion, present to the  auscultator  examples  of
the  slightest   degree,  and  these  usually  ex-
pectorate every morning a  small  portion  of the
pearly mucus  that I have described.  If the en-
gorgement affect a longer extent of the  bronchi,
some degree of dyspnoea may be felt even when
the  person is  at  rest,  particularly after  meals.
In a severer case the dyspnoea may  last for sev-
eral days, and is usually  relieved by  cough  and
expectoration  of  a small quantity  of the same
viscid mucus.    These symptoms are still  in pro-
portion to the extent  of  suppression and ob-
struction  of   respiration observed by ausculta-
tion.
   This disease not  unfrequently  terminates  in
the   pituitary   form;   or rather,  its  paroxysms
sometimes end in  a  watery  expectoration, with
a small  proportion of  the tough mucus in it.
Like   pituitary catarrh, it  may  have  its first
origin  in  an  inflamed  state  of  the   mucous
membrane;  but   from  the natural duration of
the symptojis, as   well  as from the appearance
after death, I am  disposed  to consider  its  present
cause rather as a passive congestion,  and  conse- 
86
PERTUSSIS.
 quently  interrupted  secretion,  arising,  perhaps,
 from deranged nervous  influence, than  an active
 imflammation.

        Section  IV.—Pertussis, Croup, frc.

   The  physical  signs  of  pertussis do not ma-
 terially  differ from  those  of  common catarrh,
 and are usually slight.   In the intervals  of cough
 the  respiratory  murmur  becomes indistinct  in
 some  points,  and puerile in others;  a  sibilant
 or sonorous  rhonchus is sometimes heard,  and
 the  sound  of the  chest,  on percussion,  is un-
 impaired.  From this it may be  concluded, that
 the violence of the cough does  not  depend  en-
 tirely on the state of-the mucous  membrane  of
 the  air-passages, and an examination, during a fit
 of  coughing,  confirms this  conclusion.    If  the
 ear  is applied to the  chest at this  period,  no
 rhonchus or respiratory  sound  is  heard,  except
 for a  moment, between each  cough ;  and during
 the sonorous back-draught all is silent within the
 chest.   This absence of  the  respiratory  sound, in
 an inspiration that seems so deep and forcible,  is
 to  be  attributed  to the admission of air being
slow and scanty,  on  account  of the spasmodic
constriction  of the  glottis,   by  which,  too,  the
hooping noise is  caused.   A  spasm of  the  mus-
cular  fibres of the  whole  bronchial  tract may
also contribulp to  the  exclusion   of air from  the 
CROUP.
87
air-cells, but I cannot, with Laennec,  consider this
as the only  cause.
   I have had no  opportunity  of exploring the
signs of croup,nor  is it easy to predicate  what
they would be.   Lasnnec gives a  solitary  exam-
ple of a bronchial croup, in which  the presence
of an adventitious  membrane caused a dry and
tubular respiration,  without the  diffused  slightly
crepitant sound  so  marked in  children.   This,
with   the  sound   of  percussion  unimpaired,  if
found  constant,  would  (he  suggests) be  suffi-
ciently distinctive  of this  form of the  disease.
The clearest  physical  sign  of inflammatory tra-
cheal  croup  is,  certainly,  the  detachment  and
expectoration of  the factitious membrane that  is
formed  in  the  air-passages.  But I  have  little
doubt  that, by attentive observation, a diagnosis
might  be drawn from the  difference in the sound
of the  voice,  and  passage  of  the air  through
the trachea, and  even  from percussion upon it.
Nor would it  be  unworthy of  the inquiry; for
the  distinction between  croups produced  by a
false   membrane, by  spasmodic  contraction, by
oedema of the glottis, by the pressure of an ab-
scess,  and  other   causes,  involves  important
points  in practice, a  knowledge  of which  might
have prevented many  fatal accidents.  A  care-
ful  observer, having  a knowledge  of the laws
of sound for a guide, might, by  attention  to this 
88        ULCERS, &C. IN THE  BRONCHI.

subject, confer an important service on the heal-
ing art.
   I do not believe that  ulcers of the  bronchi
have  any constant sign by which they can be  dis-
tinguished.  They  excite  a copious  mucous  se-
cretion from the membrane, which is  sometimes
mixed with pus and blood.   The presence  of  the
same   liquids in the bronchi  occasions a  mucous
rhonchus.   In  these  cases the local pain,  excited
particularly by  exertions of the voice,  is the most
characteristic symptom.
   For the diagnosis  of  polypous  and  other  tu-
mours in  the bronchi, I  must refer the  reader
to  his own  reflections;  for as I  am  convinced
that  no one  can become  a good  ascultator by
the  use  of  his ears and memory  only,  so do  I
maintain  that  by a knowledge of the properties
of sound,  and a happy generalization of its  phe-
nomena,  an  observer will be enabled   to  ex-
plain  and appreciate not only all  those signs
that   experience  has hitherto discovered,  but
those  that may also be  revealed   by  future  ob-
servation.  Thus  he who knows  how the sono-
rous   and  sibilant  rhonchi are   produced,  will
perceive  that  a  tumor  pressing  on  a  bron-
chus  may likewise cause  them.  He will see,  in a
haemorrhage   simply bronchial,   all   the   ele-
ments necessary to  produce  the  mucous rhon-
chus, &c. 
SPASMODIC ASTHMA.
89
        Section V.—Spasmodic Asthma.
   Before  the  discovery  of  auscultation,   this
name   was   given   to dyspnoea   arising  from
many other causes than to that  which  patholo-
gical research, and a more  perfect method of di-
agnosis,  have  now restricted  it.   Besides  the
real  spasmodic disorder,  dry  catarrh, emphy-
sema of the  lungs,   diseases  of the  heart,  &c,
sometimes affect  the  breathing in a  manner so
sudden, and  for a  period so transitory, that  in
defect of less equivocal signs, the  dyspnoea  has
been ascribed to an  irregular  action of the bron-
chial muscles.   Thus,  a  pathological  state  was
supposed  to  prove the  existence of  bronchial
 muscles which  anatomical research  had never
 clearly discovered.   A more  perfect  examination
 demonstrated   to  Reisseissen   the  anatomical
 point;  and M.  Lsennec has, in  a limited degree,
 established  the  assumed  pathological state,  in
 proving the  occurrence  of  a purely  spasmodic
 asthma.
    During the paroxysm the  chest sounds ill  on
 percussion, and the respiratory  murmur is  indis-
 tinct,  even   on  the  most forcible  respiration.
 But if the patient,  after holding his breath  a  lit-
 tle while, be desired to breathe again quietly,  the
 spasm will be overcome as  it  were  by  surprise,
 and the entry  of the  air  into  the cells  will  be
                        12 
 90             SPASMODIC ASTHMA.

 heard in a  clear, and  sometimes  puerile  sound.
 This may be best effected in  the manner recom-
 mended by LaBnnec,  by desiring the  patient  to
 read aloud, or  speak as many words as he con-
 veniently  can  without  taking breath, and  then
 to  breathe at his ease.  But  after  one  or  two
 inspirations, the spasm  regains its  hold,  and  the
 respiration  becomes as  dull as ever.   The  dimi-
 nution of  the  respiratory  noise  here, obviously
 proceeds  from  the  obstruction opposed  to  the
 entry  of  air into the small bronchi  and  vesicles
 by the  tonic  contraction  of  their  muscular
 fibres.  By the same contraction  the lungs  are
 in a manner collapsed within the  thoracic cavity,
 and the parieties of  the chest, falling in  with
 them, lose that  sonorous elasticity produced by
 a  fulness  of aereal  contents.*   The  chest  thus
 contracted  to  the size of  the collapsed lungs,
 may be compared to a drum,  the  parchment of
 which is pulled in  by  transverse strings.  The
 free vibration is thus checked by  these  unyield-
 ing frena.    Conceiving,  as I  do,  that the  con-
 traction of the bronchial muscles  is  a sufficient
cause of  the  phenomena of  asthma, I gladly
discard  Laennec's  hypothesis  of the  active  dila-
tation of the  bronchi,  unsupported  as it  is  by
physiological fact,  and opposed to all we know of
animal dynamics.
♦ See my observations on percussion, p. 29 
SPASMODIC ASTHMA.
91
  The   dyspnoea  produced  by spasm  of the
bronchi is  often  of  long  continuance,  and may,
to a  certain  extent,  become habitual.   In such
cases the system accommodates itself to  the  di-
minished  supply  of  air,  and  the  respiratory
function  is  less called into action;  but  slight
causes either reproducing the want  in the system,
or  increasing the  spasm,  will  be  sufficient to
bring  back  the dyspnoea.   Of  the  first class
of causes  are exertion,  the sudden application
of cold, &c.;  of  the  second,  depressing  affec-
tions  of the mind,  and sympathetic irritations,
produced by certain ingesta in the  stomach and
intestines.    This second  class  includes  usually
those which  originally produce the  disease.  1
have seen a remarkable and  exquisite  case pro-
duced by the slow introduction  of lead into the
system,  but such a form of satunine neurosis is, I
believe, rare.
  This  affection may  be  partial,  affecting one
lung only, or one more than the other, and is often
complicated with partial dry catarrh, pituitous or
humoral ashma.  The  signs of these diseases will
then  be observed  in  some  parts  of the chest,
while those  pathognomic of  the spasmodic affec-
tion  will be heard elsewhere. 
92         PER1PNEUMONY--FIRST STAGE.
CHAP.  II.
   DISEASES AFFECTING THE TISSUE  OF THE
                    LUNGS.

          Section  I.—Peripneumony.

  Peripneumony  consists  in   an  inflammation
of the parenchyma of  the lungs,  and, according
to the changes produced in the  tissue,  it  is  di-
vided into three stages.
  The  first   is  that  of simple  inflammatory
injection, in which  the size of  the  blood ves-
sels  is increased,  and .a  serum, more  or  less
abundant  is   effused  into  the  interstitial   tis-
sue.   Our  knowledge  of minute anatomy  does
not  permit   us to specify with certainty  the
exact  and   essential seat of this inflammation;
but  I am  disposed, from  a consideration of the
signs, and the  effects  on  the tissue,  to  refer it
principally  to   the   plexus  of  vessels  and sub-
mucous  tissue   surrounding   and  uniting   the
minute  extremities  of  the  bronchi.   It  may
and usually does, extend  to the  mucous  mem-
brane  of these  extremities,  and  of  the smaller
bronchial  tubes;  and  this  is, strictly speak-
ing, rather  a bronchitis necesssarily  attendant  on 
PATHOLOGY AND SIGNS.
93
the parenchymatous inflammation than  a part  of
the pneumonia.*
   In  this  stage  of  the  inflammation,  the dis-
tended  vessels,  and  the  serous  effusion in the
interstices, press on the  minutest  bronchial ram-
ifications,   and   partially   obstruct   the ingress
of air into the cells to  which they  lead; whilst
the  viscid  secretion of the  mucous membrane,
simultaneously  inflamed,  filling  the  callibre  of
the tubes thus narrowed, only yields  to  the  air
in  respiration   forcing  its way  through  it  in
successive bubbles.    This  bubbling passage  of
air through a  viscid  liquid,  contained  in an  in-
finity  of  tubes  of  equally   diminished  calibre,
causes  that   regular   and  equable crepitation
which  constitutes   the  true rhonchus  crepitans.
If the inflammatory infarctus be  not so  general
as  to  prevent  the  air from  entering  without
obstacle into  many  of the  bronchial cells, then,
besides   the   crepitant  rhonchus,   the natural
sound  of  respiration  will be heard.    On  the
other   hand,   the  inflammation  increasing, and
 passing  into  the second  stage,  causes  a  total
   * On dissection, the lung in this stage is found to be of a livid red
color of various shades ; it is increased in weight, and pits on pres-
sure, but it is still somewhat crepitant, and usually floats in water.
When cut into, it still presents its spongy structure, out of which
exudes abundantly a spumous bloody serum.  Its integral cohesion is
diminished, for the texture may be easily broken down  between the
 fingers.  The mucous membrane of the small bronchi is of a deep red
 color. 
94         PERIPNEUMONY--SECOND  STAGE.

obstruction of the cells, and all sound  of vesicu-
lar  respiration, and  even of  crepitant  rhonchus,
ceases.    The  progress  of  the  inflammation  is,
therefore, now marked by the gradual disparition
of the crepitant rhonchus.
  The second stage of  peripneumony is  that  in
which the lungs  present  that   change   in  the
tissue   which   is  called  by  Laennec, hepatiza-
tion.*   This  change  consists  in  the  effusion  of
a semi-solid  albumen  in  the  interstitial  tissues,
and which presses on,  and  obliterating  the  cav-
ities  of  air-cells  and smaller bronchi, destroys
the   spongy  texture  of   the   lung,  and  con-
verts it into a more  or less  solid  mass.   Such  a
condition of the air-cells precluding  any  further
ingress of  air,  what  stethoscopic  signs can  we
have to  indicate  this stage  of  inflammation  in
the living body ?  Here still  a consideration  of
the physical  state of  the organ will  teach  us to
expect, a priori, the  same  phenomena that ex-
perience  has  revealed.  We  have already  had
occasion to observe that the  healthy  lung,  from
its  being  composed   of conductors  of very dif-
  * Ramollissoment rouge of Andral.—A hepatized lung presents  the
following characters after death: externally it is of a deep red color,
which internally is mottled with a number of  small light  yellowish
granular spots, with patches of whiter color, marking the vessels,
membranous septa, &c. not affected with the iinflammation. It sinks
in water, and is no longer crepitant, but breaks readily under the  fin-
gers, and may, by a slight pressure, be reduced to a reddish pulp. 
PATHOLOGY AND SIGNS.
95
ferent  powers,  (air, membrane and  liquid) is a
bad  conductor  of  sound, and  is, therefore,  in-
capable  of  transmitting  to its  surface  slight
sounds,  remote  in  the interior.  But  now that
the  tissue is rendered more uniformily  dense  by
hepatization, it becomes a better  conductor,  and
transmits  a  sound (usually unheard,) of the  air
passing  to and fro in the larger bronchial ramifi-
cations.    This is  the bronchial respiration of La-
ennec  and  Andral;  and specifically  marks the
second stage  of pneumonic inflammation.   This
sound,  when  once  heard,  cannot be  mistaken.
It resembles that produced by blowing  through
a  crow's  quill,  and  is frequently  so  loud  as  al-
most to  amount  to  a whistle.    This  sound,
acute and defined, forms  a  remarkable  contrast
with the  doll, diffused sigh of natural  vesicular
respiration.
   Another  nearly as characteristic sign is given
by the voice.  When  the  stethoscope,  with  its
stopper  in,  is applied to  the diseased  part, the
voice is   heard to resound there in  a tone modi-
fied, as  if speaking through small tubes.   The
voice does not,   as in  pectoriloquy, appear to
enter  the  tube  of  the  instrument;  and  the
sound  of the  voice is  not heard  in   distinct
words, but in notes of various continuance, not
always synchronous   with  the words  uttered  by
the  mouth ; and  the intervals are  often alter- 
96
PERIPNEUMONY--SECOND STAGE.
 nated  with  what  may be called whiffs  of bron-
 chial respiration.
   It is  obvious  that the extent and intensity of
 these sounds must greatly  depend  on  the  num-
 ber  and  size  of  the bronchial  tubes in  which
 they are heard.   They are  therefore  most  dis-
 tinct when the   hepatization  occupies the sum-
 mit  or the  neighborhood of   the root  of  the
 lung,   and  extends   to  the  surface.   On   the
 other hand, when the surface or the centre  alone
 is  hepatized, these signs may be altogether want-
 ing.
   In  the  third  stage the diseased  lung becomes
 infiltrated  with   a   purulent  matter,  which is
 generally  consistent  at  first,  but  soon acquires
 the liquidity  of  common  pus*.   In  this stage
 the  bronchial  respiration and vocal  resonance
 usually   cease,   and  are  sometimes  supplanted
 by  a  gurgling  mucous  rhonchus/indicating   the
 presence  of   a  liquid in  the principle  bronchial
 trunks.
   In  the  rare case  of  the  formation  of   an
 abscess   in  the  hepatized  lung, the  passage of
 air  through  the  liquid will be  indicated  by   the

  * This changes the color of 'the diseased lung from the red of
hepatization to discolored yellow or brownish, which is frequently
mottled with red portions in the second stage, and  with  the black pul
monary matter.  This is called by Andral ramollissement gris   The
tissue is quite impermeable to air, and of extreme friability being
reducible by slight pressure into a kind of purilage. 
PATHOLOGY AND SIGNS.
97
gurgling  or cavernous  rhonchus ; and when the
cavity has  been emptied of the pus by expecto-
ration, pectoriloquy and  the cavernous respiration
will be added to this sign.
   Gangrene   is   also  a  rare   termination   of
peripneumony.    The gangrenous   portion, being
softened or ejected  by  expectoration, will pro-
duce  a cavity which  will be indicated by  the usu-
al  signs of  cavernous  rhonchus  or  resonance.
The  distinctive  physical sign  of gangrene  is the
foetid odor  emitted   from  the diseased  part  in
respiration.*
   Thus  far we have traced peripneumony  in the
changes  in the pulmonajy textures, as  indicated
by the  stethoscope.  The  severity of the case
may  be judged from the  extent  of the   disease,
and the  advances which it has made.
   It is in the first stage  of inflammatory injection
that the auscultation proves  pre-eminently  useful
in assuring:  us of  the existence  of  a disease  that
no   other   symptoms   could  discover.   The
presence   of  the   rhonchus   crepitans  may  be
taken as a  warning   to  resort  to   energetic  anti-
phlogistic  measures, which  in   this  stage  will
  * The anatomical characters of gangrene of the lung are various.
The color is sometimes like that of a simply engorged lung, with a
greenish tint.  Sometimes it presents a dark  green, or an earth-
brown aspect.  In its progress the gangrene produces a softening  and
complete deliquescence of the pulmonary tissue ; but the sphacelic
fcetidity is the cha racteristic sign.
                        13 
98
PERIPNEUMONY.
seldom fail in  arresting  its  course.   The  disap-
pearance of this sign,  and  sometimes  the  pres-
ence of the bronchial  respiration and rhonchus,
announce the  increasing  danger  and  progress of
the disease, as they  indicate  its advance  to the
second stage.   The  diseased structure  is, how-
ever still susceptible of a return to  the healthy
state, and the view  which we have taken  of the
morbid  anatomy  of  this   stage   suggests,  in
addition  to means  directed  against  the  inflam-
matory orgasm,  the  important advantage with
which  sorbefacients   may be  used.   I  know
of no symptom  by  which  the  third  stage can
be recognised during life ; unless  it  be occasion-
ally  by  the  presence of  the  gurgling mucous
rhonchus  before  mentioned.   In this stage the
disorganization  has  probably gone  so far that
the texture cannot be  restored ;  and  yet it  is pro-
bably  that   even  then  recoveries have been
brought   about  by   the  formation  of abscess.*
How far  cure  may  be effected  by  any  other
processs  we are not able to  determine.  Recov-
ery from  peripneumony, terminating  in gangrene,
is of still  more dubious possibility.   I know of no
fact  to warrant the supposition, but   the  extreme
rarity of the case renders the matter of little im-
portance.
   The resolution or  retrogression   of  peripneu-
            * Laennec, Tom. I. p. 409. 
PERIPNEUMONY—-SIGNS OF CURE.        99
monic inflammation, is attended by a  succession
of the same physical signs that  marked  its pro-
gress, but in an inverted order.   Thus,  in  a spot
where   no  sound  of the  ingress or  egress  of
air has been heard, or  perhaps only a bronchial
respiration,  a  slight  crepitant rhonchus  begins
to be  distinguished at the  end of each  inspira-
tion, apparently produced by the  air again  gain-
ing a straitened  admittance through a few of the
bronchial tubes, whose calibres have  been par-
tially restored  by  the re-absorption  of matter
effused round  their parietes.   This  sign increases
in  intensity  as  the  resolution  proceeds ;  the
bronchophony   and  bronchial   respiration  are
diminished  as  the  lung  re-acquires  its spongy-
texture,  and  becomes  a  worse conductor  of
sound.   After  a  while  the  natural  respiratory
murmur   is  heard   mixed  with  the  crepitant
rhonchus;  and  as the  texture  becomes  more
permeable to   the  air,  this  increases  as that
diminishes, and the healthy function  of the lung
is thus gradually restored.  But  here  again the
signs  obtained  by   auscultation  are  invaluable,
as they alone indicate with certainty the  absence
of the disease.   The  dyspnoea may  have been
removed, the  cough may  have  ceased,  the ex-
pectoration  may have  become  simply  catarrhal,
the pulse natural,  and  all  febrile  symptoms dis-
appeared ; and  yet the  auscultator detects the 
100          PARTIAL PERIPNEUMONY.
 lurking disease  in the persistance  of the  crepi-
 tant rhonchus;  and as long as  this  continues,  a
 slight exposure  to cold,  or  a  trivial  departure
 from antiphlogistic regimen may cause a  relapse,
 which, in a subject already reduced by depletion,
 may  be more difficult to  cure  than  the  original
 disease.
   I have   here  described the  access, progress,
 and  cure   of   pneumonia  in  its  general  well-
 marked course ; it will now be  necessary  to ad-
 vert to certain varieties in  the signs produced  by
 situation, extent,   and  complication of the  pneu-
 monic inflammation.
   When the inflammation occupies  the central
 part of the lung, and particularly of the  base
 without extending to the surface,  the  experi-
 enced  ear  alone can distinguish  the crepitant
 rhonchus in the  first stage,  and   the  bronchial
 respiration  and  resonance  of  the  second,  at  a
 distance, through the natural sound  of the  respi-
 ration,  which comes  from  the  healthy portions
 at  the  surface.    Whenever  the inflammation
 occupies a considerable portion of the organ,  the
 sound   of   the   respiration   in   the   healthy
 parts  is much louder than usual,  and is called
'puerile from its resemblance to the noisy  respi-
 ration   of  children, or  supplementary  from its
 being Increased  to supply the defective entrance
 of air in the diseased parts.  The intensity of this 
SIGNS BY AUSCULTATION.             101
 supplementary  respiration  will  depend,  besides,
 on the extent of  the disease, on  the  natural  ac-
 tivity  of  the respiratory  function, the  want  of
 breath, so different (as we have  before remark-
 ed) in  different individuals.
   M.  Andral  has remarked, that in  the compli-
 cation  of pneumonia with catarrh, the  loud  mu-
 cous rhonchus  of the  latter so  completely  ob-
 scures   the   rhonchus crepitans  of  the  former
 disease,  that this  may  escape  detection;  but
 1   am   inclined   to  agree  with   Laennec,  that
 there  are  few  cases in which   the  practised
 auscultator,  assisted  by the stethoscope,  cannot
 distinguish the presence and seat of both  symp-
 toms.*   The  ear, by  practice, acquires a  great
 facility  in separating,  and  listening  to a  single
 sound  from  amongst   several   others,  perhaps
 superior in loudness.   Nor let this  appear sur-
 prising,  when it is remembered that  we are  ha-
 bitually accustomed,  in the din of a  city, to dis-
 tinguish and  be  attentive  to  each  of the mul-
 titude  of  sounds  of various intensity  that  beset
 our ears, t
   Percussion,  though much inferior  to  auscul-
 * "When mixed with other rhonchi, the crepitant rhonchus  is best
distinguished  at  the end of each inspiration, that being the part  of
respiration the most purely viscular.
 t We effect this, I apprehend, by the voluntary tension or relaxation
of the tympanum, by which it is made more susceptible of the vibra- 
102                PERIPNEUMONY.
tation in extent and certainty  of  its indications,
is yet of  great utility  to  confirm  and   assist it.
In  the first stage the chest often sounds  well in
the  diseased part, or at least  the  deminution  of
the  sound  is  doubtful,  whilst  the  rhonchus  cre-
pitans  unequivocally  proclaims  the presence of
the  inflammation.   On   passing  to  the  second
stage,  however,  the  sound  is evidently  duller
and in  the   second  and  third  stages   becomes
quite  mat, and continues to be   so  until  resolu-
tion brings it to its first stage again.
   Percussion   gives  no  indication when  the  in-
flammation   is central;  and  it  requires  much
practice  to detect  by  it a small  circumscribed
inflammation   on   the  surface.    Its  indications
are always doubtful  at  the  posterior  and lateral
margins  of the lungs, on account of  the vicinity
of  the abdominal viscera.
   The   peripneumonic   inflammation    modifies
the  secretion  of  the  bronchial  mucous  mem-

tion of one particular sound, by being brought in unison or at least in
harmony with it:  Thus discordant sounds, or those not  separated by
harmonic intervals, are easily distinguished, but harmonic sounds be-
ing blended with each other, are with more difficulty separated, and
this difficulty is in proportion to the perfection of the harmony; thus
it is greatest with unison,  next ihe octave, the fifth, the third, &c.
This fact is of importance in auscultation, the indications of which
may be obscured by similar extraneous sounds.  Thus a tinnitus
aurium in the auscultator, or the rustling of the clothes of the pa-
tient, may prevent the respiratory murmur from being  distinguished,
whilst a sibilant rhonchus may at the same  time be heard with its us-
ual force. 
SPUTA.
103
brane  in a  very remarkable  manner.    At  the
commencement  of   the disease  there  is  fre-
quently no expectoration,  or   it  is  simply ca-
tarrhal, being composed  of a  mucous  of moder-
ate  tenacity;   but  as   the  crepitant  rhonchus
becomes marked, the  sputa  assume their char-
acteristic   form.   They   are   semi-transparent,
tenaces,  and  run  together,  forming one  mass
of a  reddish  yellow,  or  rusty  tinge  of vari-
ous shades.  As the the disease advances, this te-
nacity increases.  At  first  it   does  not  much
exceed  that of the  white  of an egg,  and when
poured  out, the  sputa  fall in  glutinous strings,
but at the  height of  the first stage they  are  fre-
quently so  viscid, that  inverting the vessel,  and
even  shaking it in  this  position, will not suffice
to  detach   them  from  it.    The same tena-
cious  property  imprisons in  the  mass  a  multi-
tude  of little air bubbles, which sometimes pro-
duce  a  spumous  appearance.    The  color may
vary  in numberless  gradation  from a light red-
dish or greenish  yellow, to  a  deep orange  or
rusty  hue.   All these tints proceed  from various
proportions  of  blood intimately combined  with
the secretion of the bronchial  membrane.
  Quite  different  from these are the sanguino-
lent sputa  that sometimes  occur in catarrh,  in
which the  blood appears in distinct strias.   The
intimately   combined  tint,  and  the   gluttinous 
104
PERJPNEU.VONY.
 viscidity   of   perineumonic  expectoration,  give
 to it  a  character perfectly  pathognomic,  and
 sufficient  in itself to  prove  the  presence of  the
 disease,   Moreover,  the  degree  of  viscidity
 announces, with  tolerable   precision,  the  inten-
 sity  of  the inflammation ; and  whenever, after
 having become thinner in the course of cure, the
 sputa  regain  their former  viscidity,  a  relapse
 into  the   disease  is  indicated.     But although
 the presence of  these  sputa  indicates  with
 certainty   the   existence   of  pulmonic  inflam-
 mation, we cannot draw  an opposite conclusion
 from  their absence.  They rarely  appear until
 the  second  or  third  day,  sometimes  not  till
 later, and  in some  cases have not been observed
 at all.   So also in  the cure, they usually  disap-
 pear,  and  the  expectoration  becomes  simply
 catarrhal  some time before  the cessation  of the
 rhonchus  crepitans.   They sometimes continue
 during  the   stage of  heptization,  but  more
 commonly become pituitous,  or mucous  and opake,
 in  the   third stage  the   expectoration  some-
 times consists of   an  opake mucus, occasionally
 mixed   with   pus;    but   more    frequently,
 I think, it resembles  a  thin  mucilage colored
 with treacle.   This peculiar form  of  the  sputa
first  noticed   by  MM.  Lerminier  and  Andral,
M.  Laennec  considered merely  fortuitous, and
to  proceed  entirely  from  spongy  and  bleed- 
PATHOLOGY.
105
ing gums in cachetic  subjects;  but in this  opin-
ion, I do not think  he  is  borne  out  by  experi-
ence.  The appearance of such an expectoration
must, at any rate, be viewed as a  very  unfavora-
ble symptom.

     Section II.—Emphysema of the  Lungs.

   Emphysema of the lungs consists in a  general
dilatation  of the air vesicles, whereby  the  tissue
is  rendered coarser  and less dense.  To  under-
stand more fully the  nature  of  the alteration, it
will  be requisite to study the  manner  in which it
is  produced.
   In cases of chronic catarrh, particularly  of  the
dry  kind,  the  minute bronchial ramifications  be-
come  so  obstructed  by  the  swelling  of  their
membrane,  or  by   the  secretion  of  a  viscid
mucus, that the air  can  only  be forced through
them into  the vesicles  by a  considerable  effort.
Now, as  in  ordinary respiration, the inspiration
(a muscular effort,) is more  forcible  than  the
expiration,   which   is   principally   effected  by
the  elastic  force of the  cartilages  of the  ribs,
and  the  weight of the  abdominal  viscera,  the
former may  prove   sufficient  to overcome  the
obstacle  to  the introduction  of  air  into  the
vesicles, while the  latter is  inadequate  to effect
its  expulsion.    Successive portions  of  air,  ex-
panding by the increased  temperature,  are  thus
                       14 
106        EMPHYSEMA OF THE LUNGs.

introduced and incarcerated in the  cells, which
are thereby kept in  a state  of continual  dilata-
tion.  This is, perhaps, a first and  principle cause
of  the  dilatation of the air-cells;  but  other
causes  co-operate, and  other  changes are  pro-
duced, before the  emphysema becomes  perma-
nent.
   The  forcible action of the expiratory  muscles
in coughing will exert a  pressure  on  the  dilated
air-cells.  This pressure may overcome  the  ob-
stacle in the bronchi, expel the air, and  restore
the cells to their natural size.   But the  obstruc-
tion may have  increased, and  then the pressure
will expand the  cells in  the  direction  of  the
adjacent yielding tissue.   The  dilated cells will
thus encroach upon the  adjoining healthy tissue,
and  cause  its obliteration (a new  obstruction
in the bronchi,) or  the rupture of its  cells.   Add
yet another cause,  which  may occasionally act,
and we shall  have  found explanations  enough
of  the frequent occurrence of a disease, the  very
existence of  which   has  not,  till  of late,  been
suspected.  In dry chronic catarrh, the  general
starting point of emphysema,  small  particles  of
viscid mucus form   a  kind  of  moveable   obstruc-
tion,  which,  falling into  a  bronchial ramifica-
tion,   instantaneously  and  effectually plug  up
the tube.  Now,  suppose  this to  happen  in  a
tube at  the termination of  an  expiration ;   inspi- 
PATHOLOGY.
107
 ration takes place, but this pellet  of mucus  acts
 as a valve,  preventing the entry of air into  those
 cells supplied by this  tube, the  consequence  is,
 that the air in the surrounding cells presses  in  to
 fill the vacuum,  by  dilating or  rupturing  their
 membranous tunics.
   Such a variety of causes, acting  and re-acting
 upon each other, tends to  produce  this  organic
 derangement.  How  strikingly does this  prove
 the  exactitude and  perfection  with which the
 machine must act to preserve  health,  since  so
 slight  a  deviation   may  entail  such disorder;
 and how wonderful  that  the equilibrium is not
 more frequently lost!   Besides the  simple dila-
 tation  of  the air vesicles, there appears to be
 sometimes  an intervesicular  emphysema, which
 causes the occlusion of some  bronchial branches.
 To  this, and to an  increased  rigidity  of  the
 tunics  of the dilated cells, is to  be  ascribed the
 tense  elasticity so remarkable  in an  emphyse-
 matous lung; hence,  too, the incapacity of the
 lung to perform its  function  with  effect.   This
 incapacity  is also manifested during life,  by  the
 absence or  diminution of  the respiratory  sound
 in the  part.    This leads me to consider the phys-
 cal signs of  emphysema.
   It not unfrequently  happens that  emphysema
is  present  without  producing any  other signs
than those of dry  catarrh or asthma;  namely, 
108         EMPHYSEMA OF THE LUNGS.

a  diminished  sound  of  respiration, with  slight
sibilant or  mucous rhonchus, and  clear  sound on
percussion; and then the duration of the disea£e
can alone  serve  as  a distinction.    But if  the
emphysema be more extensive, it will give to the
chest  an   unnaturally rounded  form,  with  in-
creased intercostal spaces.   If one lung  only  be
affected, the corresponding  side  alone  will pre-
sent  this appearance; it will  be larger  than the
other, and  emit  a  clearer  sound on percussion
The stethoscope may discover from time to time
a dry crepitant rhonchus of  a peculiar  kind, and
which pretty  closely  resembles  the sound pro-
duced by  inflating  forcibly  the  cellular  mem-
brane of  meat.  This sound is  caused by the
motion of  air in the intervesicular  texture, or
particularly under the pleura, during the  respi-
ratory movements, and is clearly the same as that
which may be  produced by pressure on subcu-
taneous emphysema.  More rarely, the sound re-
resembles the  friction of  a pulley, or that of two
pieces of  leather  rubbed together,  and  this  is
usually confined to inspiration.  I have sometimes
heard these sounds produced not only by the  ac-
tion   of  respiration,  but also by  the impulse of
the heart; which shows that they are not of the
nature of  other rhonchi.
   The expectoration is usually  like  that of dry 
            INTERLOBULAR EMPHYSEMA.         109

catarrh, but often more liquid, and of a dirty grey
color.
   It appears that emphysema of the  lung,  as  it
commences gradually,  and  proceeds  slowly,  is
not attended with  any  immediate  danger;  but
it  produces an habitual dyspnoea, which incapaci-
tates the body for exertion, and renders  it ob-
noxious to  serious, and even  fatal  effects from
contingent pulmonary disease,  which in  a  heal-
thy lung might be borne with comparative  impu-
nity.
   Interlobular  emphysema rarely  accompanies
the  last  affection.    More  frequently  it  occurs
separately,  and  is   caused instantaneously  by
violent straining, or  by  some  analagous  exertion
of the respiratory organs.   As its name implies,
it consists  in an effusion of  air  into  the  celular
tissue, between the lobules composing the  lobes
of the lungs, and is strictly confined to it.   This
emphysema  causes  a  slight  elevation  on the
lung, from the interlobular spaces which  it has
made: and  this elevation rubbing  against the
costral  pleura  in  the motions of   respiration,
causes a strepitus, which  I  have  already com-.
pared  to  that produced  by  rubbing  together
slowly and forcibly two pieces  of leather.   It   is
usually most perceptible at the  end  or  acme  of
inspiration ;  but  may  accompany both  inspira-
tion and expiration, and then is  sometimes  heard 
110
(EDEMA  OF THE LUNGS.
 in such regular jerks, that it  resembles the steps
 of a  person  mounting and descending a  ladder.
 The  impression conveyed  to the  ear is  exactly
 that of a body rubbing along  the  ribs,  rising  in
 inspiration, and  descending in  expiration.    The
 friction  likewise  often  communicates a  corres-
 ponding vibration in the thoracic parietes,  which
 may  be felt  by  the  hand.   The  patient him-
 self is sometimes sensible  of  a kind of  crack-
 ing in his  chest.  Interlobular  emphysema  may
 produce  at  first some  difficulty  of  breathing,
 but never to  a serious extent,  and is  spontaneous-
 ly cured in time by  the gradual absorption  of the
 air.

       Section III.—CEdcma of the  Lungs.

   This is  properly   speaking,  a serous  effusion
 in the insterstitial  tissue  between   the  air-cells,
 and   vascular  rete,  by  which these are con-
 nected   together.    When  contained,   however,
 by membranes  of   such  extreme tenuity,  it  is
 not    surprising  that some  serum  should,  by
 transudation pass  into the  air-cells   themselves.*

  * Accordingly it  is so found on examination after  death. An oede-
matous lung does not colapse; on opening the chest, it  feels weighty,
and pits on pressure, but is still crepitant.  Its vesicular texture is less
perceptible than usual. When cut into, it exudes a clear, yellowish
serum, scarcely frothy, which appears to proceed from all parts equal-
ly. It is however, highly probable, that it is  secreted  in the  intersti-
tial texture, which is internal, and therefore serous, and not from the
membrane of the air-cells, which is mucous. 
PATHOLOGY AND SIGNS.
Ill
  Now this liquid, by swelling up the  interstitial
texture,  so presses on,  and  partially  obstructs
the smaller bronchi, that the air  passing  through
the liquid  contained  in  them  produces  a kind
of  humid crepitation,  like  that heard  on  ap
proaching the ear to a liquid  in  gentle efferves-
cence, as bottled  cider,  or  ale,  when  freshlv
poured out of the bottle.   This  is  the  sub-cre-
pitant rhonchus.  It differs  from  the crepitant
in the bubbles  seeming  less  regular  and  more
humid, but it must be  considered  different  only
in degree; for the  two  pass  by insensible  gra-
dations into each other.   The  respiratory mur-
mur that is heard with  this  rhonchus is  feeble,
particularly  in  comparison  with  the energetic
action of the respiratory machine.  The reson-
ance  of  the chest  on  percussion  is often  not
perceptibly  diminished,  but it  is distinctly so
where the dyspnoea is oppressive, and the oedema
profuse  and extensive.    The  expectoration  is
usually  copious, consisting of  a slightly viscid,
colorless liquid.  This, when present, will distin-
guish the disease from the first  stage or perip
neumony ; but sometimes there is little or no ex-
pectoration, and then the diagnosis must be drawn
from the general symptoms, as the other  physical
signs are so nearly the  same.
   (Edema of the  lung  is  rarely  idiopathic.   It
 most  frequently  accompanies   organic  diseases 
112
PULMONARY APOPLEXY.
of the heart of long  duration,  and humural ca-
tarrh, in which  cases  it is often the immediate
cause of death.  It sometimes succeeds to febrile
affections,  particularly the  exanthemata,  being
the cause of the dyspnoea sometimes occuring after
scarlatina, rubeola, &c.
  There is one complication  of  cedema  which
renders  it very difficult  to   recognise, namely,
with emphysema  of the  lungs.   When  this  is
present the sound  of  respiration  is so obscure
that it   is  difficult  to  recognise any  other  sign
than  an occasional sibilation,  whilst  the  sound
on percussion is  very  good.   A forcible inspira-
ation after coughing, or retaining the  breath for
a while, will however frequently discover the
disease,  by  rendering  audible  the  sub-crepitant
rhouchus.
  It is always important to be able  to discover the
presence of cedema in  the  lungs,  for,  although
usually  a consequence of other  disease, it  is al-
always  to be considered a  principal  object  of
treatment.

Section   IV.—Pulmonary   Apoplexy   or   Hce-
                    morage.

  This  appears  to  consist  in  the  effusion  of
blood into the parenchyma and  vesicular  struc-
ture of  the lung.  Whether  this  effusion  is  al-
ways in  consequence  of the  rupture  of vessels, 
PATHOLOGICAL CAUSES AND SIGNS.       113
or  is sometimes  simply an  haemorrhagic exuda-
tion, has not been distinctly ascertained ;  but the
former cause would seem  better  to  explain the
suddenness and quantity of the haemorrhage, and
the circumscribed form of the lesion.   It is  how-
ever, highly probable that the  textures  are,  in
most cases, softened or altered by disease, before
the rupture takes place.
   The  blood  effused  may  coagulate before  it
reaches  any  large  bronchial  ramification,  and,
in that case,  there  will be  no  haemoptoe, but
more commonly the  reverse  happens ;  more or
less blood  is  spit  up,  or,  if in large  quantity,
more  properly,  as  Laennec  observes, vomited;
for the discharge  is produced  by  a  convulsive
action of the  abdominial  muscles, exactly  after
the manner  of vomiting.   At length, however,
the haemorrhage is  checked by  the formation of
a  coagulum,  which,  pervading  completely   a
circumscribed  portion  of  the  pulmonary  tex-
ture,   constitutes  the  hccmoptoic  engorgement of
Laennec*
   When a point of  the lung is thus affected, the
respiratory murmur will, of course, be no  longer

  * These spots of pulmonary apoplexy are of a deep brown red col-
or ; the coarser parts of the pulmonary structure alone can be  distin-
guished in them, but even these partake  of the same tinge. Unless
they are very recent their consistence is firm, and they contain little
or no serum.  Sometimes there is an obvious detritus in the centre,
formed of grumous blood alone, in which no texture can be traced,
                      15 
114
PULMONARY APOPLEXY.
heard there; and if  the engorgement be of large
size, there will be  a corresponding  dulness  of
sound on percussion,  in  that part  of  the  chest.
The   compression  of  the  tissue  immediately
around, and the  presence  of a bloody serum  in
the  vesicles,  proceeding  from  the coagulum,
occasions a crepitant  rhonchus,  which is  there-
fore heard around  the spot  where the respira-
tion is inaudible.    This   symptom,   however,
seldom continues long after  the  commencement
of the disease, but, once heard, it distinguishes it
from a simple bronchial haemorrhage.
   During the  haemoptoe, as in  the  latter dis-
ease, the blood in the bronchi causes a  bubbling
rhonchus,  which   Laennec  distinguishes   from
that produced  by  mucus  in  the  bubbles burst-
ing  in  more  frequent succession.   The stethos-
copic symptoms with haemoptoe are amply suffi-
cient to indicate the nature  of the  disease ;  but
when haemoptoe is not present, the  sputa and gen-
eral symptoms must be referred to, to  establish
the diagnosis.
   The extent of  the haemoptoic  engorgement,
rather than the quantity  of  blood brought  up,
indicate the degree of danger to be  apprehend-
ed ; for  a large  quantity  of blood  may  pass
through a  small rupture  in the  pulmonary tis-
sue, and unless this  be  so great as  to threaten
inanition, which is  not  often the case  where 
PROGNOSIS.               H5
prompt measures are resorted  to, the lesion  is
more of the nature  of  a simple  wound  than a
change of structure.  It is  where the spots  of
haemoptoic engorgement are  numerous or  large,
that we have  to apprehend some ulterior  cause
than a simple  rupture, and  whether  this  be  a
more frangible state of  the  pulmonary tissue, de-
pending on the presence of  miliary granulations
and other percussors of tubercular formation,  or
be some modification peculiar to the disease called
pulmonary apoplexy, it must be viewed as  partak-
ing in the danger of the general or constitutional
alterations of tissue, that are  very little within
the control of medicine. 
116
PLEURISY.
CHAP.  III.
             Section l.-^Pleurisy.

   Inflammation of the  pleura could  be  recog-
nised  by no physical sign, if it  were not attended
by a serous  effusion;  and it is an  interesting
and satisfactory result of the researches  of mod-
ern pathologists,  that this is  almost  universally
the case.  It is interesting, as  a point  of  general
pathology, that inflammation of the serous mem-
brane should necessarily  produce an effusion; and
it is  satisfactory,  because it  furnishes  us with
the least fallible of all signs, whereon to found our
diagnosis.
   Exquisitely  marked   as  this  disease  is de-
scribed to occur, by  the acute pain of the side,
oppression of the breathing, hard pulse,  decubi-
tus on the  affected  side, cough,  &c, there  are
few practitioners who have not proved the fallacy
of each of these symptoms;   and,  as we shall
presently point out, the  auscultator finds   but  un-
certainty in them all.
   At the first  attack, before there are  any signs
of effusion, if  the pain  be very  acute, the sound
of respiration will  be  somewhat impaired   on
the affected  side.   This is, however,  merely 
PATHOLOGICAL NATURE AND SIGNS..
117
in consequence  of the  respiratory  action   being
restrained on  that side by the pain, and is  equal-
ly observed  in pleurodyne.

   The  secretion of liquid by  the inflamed  pleura
commences   from  the  begining  of the  attack,
and  instead  of being, as commonly supposed,  a
termination  of  pleurasy,  it is a  concomitant,  or
rather,  a part  of the disease;  as  the  secretion
from  the  bronchial  mucous  membrane   is  of
catarrh.   The  first  signs of this  accumulation
are obtained by  percussion.    The  resonance  of
the  chest  is  commonly  diminished  first  in the
inferior  dorsal  and  lateral  regions,  correspond-
ing to the base  of the lung.   As   the effusion  in-
creases the  dulness  of  sound  gradually extends
upwards,    and    becomes  more    pronounced.*
Sometimes  the  transition from the dull  to  the

  *The following are the appearances on dissection in different sta-
ges of an accute  pleurisy:—The  inflamed pleura presents many
points or patches of a diffused redness, and a number of red vascular
ramifications are likewise seen distributed over it.  Different parts of
the membrane are covered with coagulable lymph, and a serous or
seropurulent, and sometimes sanguineous liquid is found in the cavi-
ty.  This liquid, if scanty, occupies principally the lower and poste-
rior part of the chest; but when abundant it envelopes the whole lung.
The lung is found compressed, flaccid and less crepitant, in proportion
to the quantity of liquid. Sometimes reduced to a size not greater
than the hand of the subject, it is pushed by the effusion into a small
space against the mediastinum and spinal column. In some cases the
lung is bound by old adhesions and is then pushed in a different direc-
tion. When the adhesions are above, the lung is displaced upwards
by the effusion; when the lower parts adhere (a very rare case,) the
effusion occupies the upper part, and so on, the lung being always
pressed against its points of attachment. 
118
PLEURISY.
healthy  sounding parts is so abrupt, that a  hori-
zontal line  will  exactly  divide  them, and  this,
when well marked, is  a very characteristic  sign.
The  sound of respiration likewise becomes more
obscure  as  the  liquid accumulates  between the
lungs and thoracic  parietes; but  the collection
of liquid  must be considerable before it becomes
extinct.
  Before this,  however,  another  effect is  pro-
duced  which  gives  rise  to  its peculiar  signs.
The  pressure  of  the effused   liquid condenses
the  tissue of the lung, by  which we have for-
merly seen  it is rendered  a  better  conductor
of sound, and  transmits  noises, usually unheard,
of  the  passage  of air  and the voice in the bron-
chi.   But this bronchophony, and  this sound  of
bronchial respiration, before they can  reach the
ear,   must  pass  through the  serous  stratum
between  the pleurae.   How then  do they effect
this,  and how  are they  affected  by  it ?   The
fact   is   this: a  respiration  is   usually  heard
becoming bronchial  as   the effusion  increases
up  to a  certain point, but  then, as  the  bronchi
themselves  become  pressed  by  a further  in-
crease  it becomes faint,  and  at   last   ceases.
If the stratum of liquid is thin the  bronchophony
traverses it,  but, by throwing it into  vibrations,
is  itself  modified, rendered sharp and  tremulous,
and  as  if produced at the surface of the lung. 
PHYSICAL SIGNS--JEGOPHONT.         1 19
The voice,  therefore,  instead of being as  from
the mouth, or even simply diminutived, as in bron-
chophony, resembles the tremulous  bleating of a
goat or lamb.   This modification of  the  voice
M. Laennec  therefore called aegophony.  Its most
distinctive  mark is its  tremulous or  subsultory
character.   In  bronchophony the  natural  pitch
of the voice is somewhat raised, but in aegophony
it  is constantly and considerably  so, and is thus
rendered sqeaking and wiry.
   Now as  this  modification of  bronchopony
can be caused only  by  the effusion in the pleura,
it  may be  regarded as a pathognomonic sign.
But even in this  case  three  conditions  are  ne-
cessary before it  can be produced:  1.  A cer-
tain condensation of the  pulmonary  tissue :   2.
The presence of a thin stratum of  liquid  be-
tween  the condensed lung and the thoracic  pa-
rietes :  3.   Such a proportion between the mass
of this liquid  and the pitch and strength of  the
vocal  sounds,  that  it may be thrown into  vibra-
tion by them.    The   necessity of  this  latter
condition is shown  in the fact  that  certain  tones
of  the voice are   asgophonic,  and  others not;
some transmitted with  only  bronchophonic  mo-
dification, and  others   changed  to  the   sharp
tremulous tone  of  aegophony.  I think  I  could
give an explanation of  the change in the note
or pitch of  the  voice in  this instance, but as it 
120
ACUTE PLEURISY.
 hinges  on  the  power  of  different  conductors,
 to  modify   vibrations  in  their  passage  through
 them,  a  subject  hitherto  unnoticed  and  unex-
 plained, it would require consideration too abstract
 and minute for this  place.   1 shall only remark
 that the  tremulous  or  subsultory sound of the
 aegophonic voice is  produced by successive  undu-
 lations of the  liquid, the  result  of an  irregular
 transmission of the sonorous vibrations.*
   It may be concluded from  this  account of the
 proximate  or physical causes of aegophony, that
 this symptom   cannot   usually  continue  for any
 length of time.  The liquid  is either so much in-
 creased that the bronchi themselves become com-
 pressed ; or, it  is re-absorbed, so  that  the cause
 of  aegophony  is removed.   The  latter  case  is
 indicated  by a return of the  natural respiratory
 murmur in the  part, and a  sonorous  resonance
 on percussion.   In the  former case, all sounds are
 lost, and  the  chest  sounds  uniformly  dull, ex-
 cept  in a small space  close  to the  vertebral
 column, against  which  the  lung  is compressed.
 The effusion  is  sometimes so  rapid that  a few

  * M. Laennec considers that another case may contribute to the pro-
 duction of aegophony; namely,  the  flattening of the bronchi by the
pressure of the effusion, whereby they are converted into little reed
 instruments, all set a piping by the sound of the voice. Besides that
 this explanation is unnecessary, I must object also that it is untenable,
The reed of the bassoon and hautboy sounds only on the passage of air
 through it, and did the flattened bronchi represent it in this instance,
the respiration, and not the voice, should make them sound. 
              CAUSES OF /EGOPHONY.           ] 2 1

hours duration of the  disease  may produce this
state.   There  is,  however, almost  always one
period at  which the  effusion  unites  the condi-
tions necessary for  the production of  aegophony ;
and as the progress of  the  disease  is slow or ra-
pid,  the  duration  of this period will  be long or
short.   The  situations in which  it is  most fre-
quently heard may be included in a band about
three inches broad, running from below  the infe-
rior  margins of the scapula, in the direction of
the ribs, to the sternum.  It  is  most pure in the
anterior  and  lateral  parts,  being often  mixed
with  a natural  bronchophony  in the  dorsal  re-
gions.   Sometimes, however, it  is heard in nearly
every part of the affected side,  the collection of
fluid being but  moderate.   This  universal  aego-
phony  never continues  long,  unless  where the
lung is  prevented from collapsing  before  the  in-
creasing  effusion,  by old adhesions  retaining it
at a little  distance from the costal pleura, in which
case, after a  time, the  respiratory  murmur  re-
turns,  the  pressure  not  being sufficient to  ex-
clude totally  the air  from  the vesicles.   Adhe-
sions may, in other ways,  modify the signs  of
pleurisy.   Not unfrequently  the apex  or  subcla-
vicular lobe  of the lung adheres  closely  to the
costal pleura; an effusion can here  never  destroy
the  sound of respiration under the clavical, and
the  same thin** may occasionally happen in  other
                       16 
122
ACUTE PLEURISY.
parts  of  the lung;  the sound of the  respiration
remaining,  however  great the effusion  in  those
spots,  where an adhesion protects the lung from
pressure.
   It  sometimes happens  that  the  pleurisy  and
its  effusion  are quite  partial, being  confined to
the  tissues between the lobes, or to a  part  on
the  surface by adhesions.   The accompanying
pain  and aegophony,  will  generally  characterise
these circumscribed pleurisies.*  If  these  symp
toms are  absent, the diagnosis  will   be  difficult,
for  the same partial absence of respiratory mur-
mur  and  pectoral  resonance,  might  result from
other causes.
   Whenever  the  effusion is abundant,  and  has
been rapidly  produced, the   respiration on :the
healthy side will become puerile,  or supplemen-
tary.  Now as  the  sound of this  respiration is
sometimes  heard on the  diseased  side,  through
the liquid, it will be necessary  to  guard against
the  error of mistaking  it for a faint respiration on
that side.   On listening attentively to the  sound,
it will be easy to perceive that it increases in in-
tensity as the ear approaches  the  healthy  side,
and that its loudness there will  sufficiently  ex-
plain its  source.   The continuance  of a  real,

  * They most frequently occur in phthisical subjects, being excited
sometimes by tubercles and sometimes by  the bursting  of a vomica
into the pleura. The effusion is commonly purulent, and may, par-
ticularly when interlobular, be mistaken on dissection, for an abscess
of the lung: 
PHYSICAL SIGNS.
123
although faint, respiration, in  a  space  of about
three fingers  breadth  along  the  spinal column,
corresponding  with  the compressed  lung,  will
also furnish a standard  of comparison,  by which
the other sound may  be  distinguished.   Besides
these tests, the  ear,  by  practice, acquires  the
power to distinguish  at once  a  sound  faint  by
distance, and one faint  in origin.
   Another important  physical  sign, that  indi-
cates an abundant effusion,  is  an  enlargement of
the affected side.   This,   although when  mea-
sured from the spinous process of  a  vertebra to
the sternum, seldom exceeds an inch, or  an  inch
and a half, is very  obvious  to  the  eye;  an ob-
server,  placed  opposite  or behind the  patient
as he sits up, or  stands naked,  may detect the
want of symmetry of even less than half an inch
in extent.
   Now, when  the disease has  arrived  at  this
state, having  been attended with more  or  less
pain of side, dry  cough,  dyspnoea proportionate
to  the rapidity of  its course,  and  the  usual fe-
brile symptoms of acute  inflammation,  all  these
symptoms may disappear;  the  pain and cough
gone, the pulse nearly natural, the  appetite  re-
turned, and the dyspnoea but slight, felt perhaps
only on exertion; in short, the  patient may appear
convalescent,  and yet, strange to  say, one  side  of
his chest is full of water!   In this state, if  he 
124
ACUTE PLEURISY.
be kept quiet, and limited to  a strictly  antiphlo-
gistic regimen,  there will be the symptoms of a
slow  and  gradual   absorption, which  we shall
presently describe ;  and  the patient may  in time
be restored to  real  health.   But  if, relying on
his  sensations,  and  deceived  by  a  false  and
illusory  feeling  of  health,  he   returns  to  an
active life, with  a full  and   generous  diet, the
consequences may  be disastrous.   Either  the
acute  disease  may  be  rekindled from  its smo-
thered state, excite  an  increase  of  circulation
incompatible with the crippled state of the  or-
gans, and thus  produce  effusion  in other parts,
and  consequent suffocation, or, the  pleurisy  may
continue  in  a  chronic  form,  perpetuating the
effusion,  becoming  a part  of the  habit  engen-
dering tubercles,  or  other  accidental  produc-
tions.   Hence  organic disease will run   its  re-
sistless  and  irremeable  course, wearing down
the  strength by hectic, and wasting  the  body by
atrophy, until   life,  scorning  to  dwell in  such
a tenure, ceases  to  hold it from  its  kindred
earth.
   Such  may  be  the  direful  consequences  of
relying  on  fallacious  general symptoms.  Let
us  seek  in  auscultation  and  percussion,  the
beacon to warn us of the latent  danger,  and to
guide us to  the  employment of means to avert
it.   The absorption of the fluid  is  indicated by 
PHYSICAL SIGNS.
125
the gradual return of the  respiratory  murmur;
first,  in those  points where  it  had  persisted
latest;  afterwards, in others; and  last  of all  in
the parts where the accumulation had begun.   It
is very faint at  first,  but becomes stronger  in
time;  but,  generally, a  very long period  is  re-
quired  to bring it on  a par  with  that  of the
healthy side : sometimes so slow is  the absorb-
tion,  that many  months are  required to  dissi-
pate a collection of fluid that was  formed  by  a
pleurisy of a few days duration.   In  other in-
stances, however, the  absorbtion   is  nearly as
rapid  as  the effusion,  and  in these cases  a re-
turning  aegophony  also  announces  the  diminu-
tion.   When the  effusion has remained  long,  the
aegophony  seldom  returns; for, from  the  long
continued  pressure, the bronchi, in  which  it  is
produced, lose their  elasticity,  and  do not  im-
mediately recover  a sufficient  calibre to  cause
that  resonance  of the voice  which  constitutes
bronchophony.    On  account  of the   same  loss
 of  elasticity,  and  slow   restoration  of  aereal
 texture in  the  lungs, the  chest never recovers
 its sound  on percussion proportionately  to  the
 return of  the  respiratory  murmur.  Sometimes,
 for causes afterwards to  be  mentioned, the  af-
 fected side remains dull as ever, after the com-
 plete absorption   of the liquid.  But  when the
 complaint has  been of  short duration  the  soih> 
126
ACUTE PLEURISY.
rousness returns perfectly, although more slowly
than the respiratory murmur.
   In the double pleurisy, where both  sides  are
simultaneously affected (a very fatal form  of  the
disease,)  the indications  given  by   percussion
are  less  certain;  for  both  sides  surrounding
equally ill, the  standard of  comparrison  is  lost.
But auscultation  will  assist  us to  detect  the
cause of the oppressing  dyspnoea,  which, unless
the most energetic  measures are employed, may
soon end in suffocation.
   The danger in acute pleurisy  depends on the
rapidity and quantity of  the  effusion.   If the
aegophony  continues, it is a  proof that  the  effu-
sion is  moderate, and  nearly stationary, which
portends   an  easy  cure.    In  leucophlegmatic
habits, the  effusion   is  usually  very  abundant,
and its absorption slow;  hence these present the
most unfavorable cases.   After  the system  has
sustained the immediate effects of  the  effusion,
a transition to the  insidious  chronic state must
be the source of  apprehension,  and this  as  long
as there are no signs of a re-absorption.   If, from
the  return of  the  respiratory murmur,  or  of
aegophony, to a part in  which it had  ceased,  it
is  found  that  the  diminution  has commenced;
then if no fresh excitation be applied,  a gradual
cure may be expected  with  confidence.  But  if
after  the cessation  of the acute  symptoms,  the 
TERMINATIONS.
127
absorption not having  begun, or  being  arrested
in its course, a slight  fever re-kindles, generally
with evening exacerbations,  attended with more
or less cough and mucous or  mucopurulunt  ex-
pectoration, then it is to be feared that  the  dis-
ease has taken the inveterate and intractable ha-
bits  of the  chronic  disease, and  the prognosis
becomes so  much the more unfavorable.
   Let us bestow some  attention on  the changes
that accompany  the  different   terminations  of
pleurisy.
   The serous effusion is  not the only product
of the pleuritic inflammation,  although it  is  the
only one that is indicated  by  physical  signs.   A
plastic or coagulable lymph is at the  same time
exuded  by  the inflamed membrane, and becomes
the basis of a variety of products.   Now  as  this
takes in different forms, according  to the  modi-
fications of inflammation, it will be  useful  to  in-
quire whether this variety depends  on unknown
causes, or whether it be  not referrible to some
known pathological law.
   The secretory action of the  vessels of  a  part
in health is twofold ;  1. the action of assimilation
or nutrition, by  which  the tissue  is  perpetuated
in its  kind,  and  preserved  notwithstanding  the
operation of  an opposite power, absorption ;  and
2. external secretion,  or action  by  which some
parts of  the  blood are  separated from   or  out 
128
ACUTE  PLEURISY.
of  the  tissue.    'The  first is the most   perfect act
of  living structure,  varying in  the  different  ele-

mentary textures of  the  body,  but   always  pre-
serving  their individual  identity.    The  latter,  in
its  simplest kind, is little  more  than   a  mechani-
cal  transudation  of  the  more  watery  parts of
the blood,  such  is  the   secretion  of  serous  and
cellular  membrane ;  but when modified  by  com-
plicated  structure  and  vital* energy, the   pro-
duct of  this secretion is often more  peculiar  and
characteristic  than   that of  the  assimiiatory  of

  *  Shall I say nervous?  So the analytic experiments of Mr.  Brodie,
Dr. Philip, &c, seem to indicate; but I think with Dr. Alison, not
yet  in a manner  sufficiently  decisive. To clear this matter labor
and thought yet are wanted.
                          1 Nil sine magno,
                   ' Vita labore dedit mortalibus.'
  Still let us guard against the error of considering the term  vilal as
explanatory, or as implying an ultimate thing, not to be analyzed or
resolved into simpler.   I would rather employ it as  a generic term,
comprehending not only the unknown power operating in the living
body, and hitherto unexplained by any physical laws, but also the ope-
ration of physical laws, through  a mechanism or  organization,
peculiar to living  bodies.   The progress  of physiology which
has   already   transferred  many  living  actions from the  former
to the  latter  class,  may ultimately penetrate the mist that ob-
scures the  remaining terra incognita  of  vitality, and find there no-
thing so unearthly as not to be reducible to the chart  of animal  phy-
sics. Be it understood, I speak here of organic actions only.  The
sensorial or animal powers require a distinct consideration, and then
appear like the properties of matter, too simple for analysis; like ge-
ometrical  lines or points, too elementary to admit of definition.  Any
explanation, therefore, applied to these can be but sophistry, for if
mental, it would be to argue in a circle, if material, ignotum in igno-
tius.
                 ' Nee scire fas est omnia.' 
EFFECTS OF INFLAMMATION ON TISSUES.
129
the same texture : this is instanced in the kidneys,
liver, and other excretory organs.
   Such are the healthy secretory functions of all
tissues.   Now let  the  vascular action of the
part be increased in different  degrees.   The first
effect will be, an increase in  the  external  secre-
tion ; in great  measure the mechanical  result of
an augmented flow of blood.   The same degree
of increase  will also in time  affect the slower
process  of  nutrition,   causing  simple   hypertro-
phy,  or  increase of natural substance.  These
changes,  although  frequently   produced   by
disease, do not differ in nature  from the  physio-
logical phenomenon of  growth.   On  a further
increase  of  vascular action,  however, the  effect
becomes more peculiar to  a pathological  state.
Besides a greater change in  the  external  secre-
tion,  the  tissue itself becomes  more  or  less
thickened and  altered,  being  at  first  softened,
but if the cause continue long, afterwards  indu-
rated ; the  one  being  the   effect of acute,  and
the  other of chronic  inflammation.  Now what
are these but  modifications  of the  nutritive or
assimiiatory  secretions?  I,t  is augmented;  new
matter is deposited in the tissue, first in  a  liquid
state, diminishing its molecular cohesion;  hence
the  softening;  the  cause  continuing,  and  no
re-absorption taking place,  the  new  matter, ac-
cording  to   its  accustomed   process,  becomes
                    17 
130
ACUTE PLEURISY.
 solid, and  uniting  in  firm   molecular  adhesion
 with the  tissue,  increases  its solid  substance:
 hence  the  induration.  Now  this  change  of
 nutrition differs from  simply  hypertrophy,  or
 growth, in the  more  condensed  arrangement of
 the solid particles,  and  presents  the  first  in-
 stance  of structural   disease,  peculiarly  patho-
 logical.   Let the vascular action be yet increased
 further, there will be an  overflow  of the nutri-
 tive secretion, which, no  longer confined  to  the
 texture, will now  become external, and will  be
 effused with the liquid secretion,  in  forms vary-
 ing  according  to  the  degree  of inflammation,
 and changes  already induced.    The  matter
 thus effused is  albumen or fibrine, the coagulable
 parts of the blood ; for as Berzelius, and Prevost
 and Dumas have shown, these are  but varieties
 of the same substance.  Enough in the  abstract:
 now let us apply these general pathological laws
 to the case before us.
   The pleura is a simple  lamina   of  membrane,
 so thin, and  of context  so   simple,  that  it  is
 scarcely   susceptible  of   thickening.    As soon,
 therefore,   as  it  is   sufficiently  inflamed  to
 augment  the  nutritive  secretion  of  the  ves-
 sels, this soon  overflows  outwardly;  and with
 the increased external,  or  serous   exhalation,  an
albuminous exsudation  takes place  on the surface
of the membrane.  This  exsudation is  the basis 
ADHESIONS.
131
of  all the factitious  membranes, accidental   pro-
ductions  and  diseased  formations  found  in  the
cavities  of the  pleura.*   Let us  now  examine
how  these varied products  result from different
degrees  or  modifications   of  inflammatory   ac-
tion.
   In  the acute  form  of pleurisy,  the  inflamma-
tory  orgasm is  intense,  and  the nutritive secre-
tion  increased  to the  utmost;  the  albuminous
exsudation  is  abundant, easily  organizable,  and
capable  of  as   high  vitality  as the   membrane
that  secreted it.   In fact  the vessels  under  the
influence   of  inflammation,  produce   at  once,
what in health they are required  to  do  slowly,
and to  supply decay—the materials of their   own
membrane.   The   simultaneous  exhalation   of
serum   separates the  lymph  thus thrown  out
into thin laminae, and these  becoming vascular,
in the manner described  by  Sir  Everard  Home,

  * I consider inflammation  of a  serous  membrane to be  the  most
simple  of any. In more complicated structures, its varied effects
arise from the difference of  structure. Why does an inflamed mu-
cous membrane throw out pus and not coagulable lymph 1  The rea-
son  is obvious.  Its internal or  nutritive secretion being  increased
beyond the degree causing simple hypertrophy, an interstitial effusion
takes place, which causes a thickening of the membrane, and mecha-
nically restrains its further effusion, so that the inflammatory orgasm
continues; the external overflow of the nutritive matter will be in a
disintegrated form, in separate particles, or globules, and far less sus-
ceptible of consolidation and organization.  It would be easy to trace
other varieties to analogous  differences of structure; but  the  ' certi
denique fines ' of this work forbid my taking such an excursion. 
132
HEMORRHAGIC PLEURISY.
are further perfected  into  a number  of new
serous membranes, forming   bands  of adhesion
between the  pleura that produced them.  These
adhesions, the result  of a  frankly  acute  inflam-
mation, are so exceedingly  common, that it is
rare to open a body  without  them.   Being loose
and mobile, they  appear to produce little or no
inconvenience or  impediment  to  the respiratory
motions.
   It  is different with   another  modification   of
the   disease,  which  Laennec has denominated
haemorrhagic  pleurisy.   The albuminous  effu-
sion has then mixed with it  more or less  of  the
coloring  matter of  the blood.   Now  this  im-
pedes the process  of   organization, for  the  co-
loring matter  in  no  way   contributes  to  the
formation of texture, and must be  absorbed  be-
fore the organization can be  perfected.   As  the
new product is of slow generation, so is its vi-
tality of  a lower degree; the excitation or or-
gasm of  the vessels having   been much dimin-
 ished before it could  be  extended to  the new
 sphere of action, the  matrix of the new  tissue.
 Hence there is produced not a new serous mem-
 brane, but one of a   fibrous  or fibro-cartilaginous
 texture,  of  inferior  vitality,  and  wanting  the
 soft  and yielding mobility  of the  serous tissue;
 and this character  in  a less  degree extends  to
 adhesions formed by pleurisies,  slow in  progress 
TERMINATION.
133
that are not haemorrhagic.  Now, what will be
the  consequences of the  formation of  such  a
membrane ?  The  lung will  be bound down by
it  in the compressed state to which it has been
reduced  by  the  accumulation of the liquid  effu-
sion,  which, in these  cases, is  always abundant
and  of long duration.  The liquid  being  dimin-
ished by absorption,  the  lung,  thus restrained,
can  but partially  recover its expanded state;  and
one of two things must take place to fill the vacu-
um  left  by the retroceding  effusion:  either,
the  thoracic parietes will be drawn inwards into
close contact with the diminished lung;  or,  the
place of the effusion will be occupied by  an aeri-
form exhalation.  The  first is the most  common
case,  and   constitutes the  contraction of   the
chest so  well described by Laennec.
   In a subject thus  affected,  the  contraction  is
discovered  at  once  by the eye,  and may  be
proved by  a measurement, compared with  the
healthy  side.  The  ribs are   drawn  closer to-
gether, the shoulder lower, and the  muscles  ap
pear less  prominant  than  on  the healthy  side.
When  the  contraction is considerable, the per-
son  leans a little  to  the  affected  side,  which
causes something like  a  limping  in  his  gait.
The  chest  having  on this side  lost  the  elastic
freedom of equal tension,  is no longer  resonant 
134
EFFECTS OF PLEURISY.
on  percussion.     The  sound  of  respiration  is,
however, preserved with a  diminished  intensity,
except  in  the  inferior parts, where  it  is gene-
rally  obliterated.*
   The  general symptoms of  haemorrhagic  pleu-
risy  are  frequently not  well  marked,   and   it
is  always  very  long  in  its  progress   towards
cure.   Several   months  are   required  for  the
dispersion  of   the effusion,  and  the full  contrac-
tion  of  the  chest.    This  being effected, the
new fibro-cartilaginous membranes of the  costal
and  pulmonary pleurae  come  into  contact,  and
as  they are not,  as serous  surfaces,   adapted for
mutual  friction, by an  augmentation   of  the nu-
tritive  secretion  of their  vessels, a  gelatinous
matter  is deposited  between  them,  which,  in
time,  becomes  a  bond  of  union, consisting  of
fibro-cartilage of lower vitality,  or even  of  real
cartilage.t

  * This is, of course, because the inferior lobes of the lungs are so
much compressed that they are perfectly impermeable  to the air.
They appear, on dissection, flaccid, like a uniform muscular tissue,
sometimes red or livid, and sometimes of a light fawn color.
  t It is in this middle lamina that the ossific process frequently ope-
rates.  In one instance I have seen this exemplified in the formation of
a bony lamina, of considerable thickness on each side of the lung, and
covering it like a cuirass.  The natural tendency of cartilage to ossi-
fication, and the acceleration of this process by inflammation, so  sa-
gaciously pointed out and beautifully described by M. Andral, in  his
works  and lectures,  may be comprehended in the  view I have at-
tempted to give of the effects of increased determination of blood
on the different secretory power of vessels. 
CONTRACTION OF THE CHEST.
137)
  This may  be considered  a cure  for  persons
thus  affected,  although they  have a   shorter
breath  than others,  labor  under  no   habitual
dyspnoea.   Catarrhs, and other affections imbed-
ing   respiration, will be  more severe  in  their
effects on such subjects, as they have less  room
for  abridgment of the function.   On  the  other
hand,  they  may  be  considered  more  exempt
from  pleuritic attacks in future,  as the  gluing
together  of  the  pleurae  renders  the  pleuritic
effusion impossible on that side.
  I  have  mentioned another event  of  the con-
finement  of  the  lung  by  a fibro-cartilaginous
membrane, namely, the filling up  the space left
by   the  effusion  with  an  aeriform  exhalation
This  mode  of termination, although  not  no-
ticed by  Laennec  or   any  other   author, has
fallen  under  my own  observation; and,   I be-
lieve, is likely to occur in most cases  where the
haemorrhagic pleurisy is  partial,  or confined by
ancient adhesions.   A   partial  cavity is  formed
by  the  effusion,  which,  on  its  re-absorption,
cannot  be   filled  by any   contraction of the
thoracic  parietes.   It therefore  becomes  filled
with  gases with which the animal fluids abound.
This  case  is  different,  it   must  be remarked,
from those described by Laennec,  in which the
pneumothorax  is,  as  it  were,  active,  and  in
which  the gases  themselves (perhaps  evolved 
136
CHRONIC PLEURISY.
by  the  decomposition of  the  pleuritic effusion,)
and  not  a fibrocartilaginous   membrane,  con-
tinue to  keep  down,  by pressure,  the reduced
lung.  The pneumothorax  is  here  the disease,
but, in  the  former case,  a  consequence  of
the cure.   I  shall return to  these   cases  after-
wards.
   Let us now examine the effect of a  third  de-
gree  or modification  of pleuritic  inflammation,
constituting  what   is  called   chronic  pleurisy.
The  inflammatory   excitation,  although  suffi-
cient to  cause an overflow  of  the  nutritive se-
cretion,  is  not adequate to extend itself by vas-
cular  communication  with  the organizable ma-
terials  thus thrown out: these being,  therefore,
retained  by no  bond of union, become,  in suc-
cession,   detached   from  the  pleura in  small
flakes, and mixing in great  abundance  with the
serous   effusion,  constitue  the liquid  of  empy-
ema.
   Empyema,  then,  is produced by   a  chronic
inflammation  of the pleura; and is  neither the
result of  the  suppuration  of the lung,  as was
formerly  supposed,  nor, in  fact is it  formed by
real pus.   The difference is, however, less  than
this description   would  at first suggest, since
both  consist of albuminous globules  floating  in
a  serum;  but  in the liquid  of empyema  the
globules   are  united  in  small  flakes,  and  the 
EMPHYEMA.
137
serum is  more  abundant,  both  of which  pecu-
liarities may  be  explained  by  the structure  of
the membrane that secretes  it.  In  its physical
signs, chronic pleurisy  does  not materially  differ
from   the acute disease.   The  effusion is recog-
nised   by  the  dull  sound  on percussion,  total
absence of  the  respiratory   murmur, and  the
enlargement  of   the  affected  side.   iEgophony
is  rarely present; for generally  the  disease is
either  engrafted on  an  acute  one,  or,  if idio-
pathically chronic,  commenced so   insidiously,
that the  effusion has exceeded  the aegophonic
degree before it  attracts  attention.  The  gene-
ral symptoms are usually  such  as practitioners
in   this  country  would   consider  indicatory  of
phthisis,  and  joined, as   it  usually  is,   with
chronic catarrh, and sometimes purulent expec-
toration, it is impossible, without  the  aid of the
physical signs, to distinguish  between  the  two
diseases.
   In  fatal  cases, which  Laennec  rates at  the
proportion of a half,  the last stage presents com-
plications with   peritonic  and  gastric disorders,
and the  patient dies in a state  of extreme  ema-
ciation.    Where  the    predisposition  exists,
chronic pleurisy  often excites  the secretion  of
tubercular matter, and perhaps also  the  forma-
tion   of  miliary  tubercles  in  the  pulmonary
tissue.   It  is  by  such  peculiar   predispositions
                      18 
138
PLEUROPNEUMONIA.
or diatheses,* that the  products of  inflammation
or increased vascular  action  are  changed  from
new  membranes and  pus,  to scirrhous, cere-
briform,  and  tubercular  formations.    An  in-
crease  in  the nutritive secretion  must  be  the
basis  of  all these new productions;  the  manner
in which  this is modified by  peculiar constitu-
tion  is  involved in  the   mystery  of secretion;
but  the  increase is certain.   Now for  an  in-
creased  secretion,  there   must be  an increased
determination  of  blood.   Does  this  amount to
inflammation?    I  answer by  another question,
which proves the  logomacheia—What is  inflam-
mation ?

          Section II.—Pleuropneumonia.
   It  very frequently  happens that  pneumonia
is  attended  with  some  inflammation  of  the
pleura;  and again, in plurisy, there is  often  an
extension  of  inflammation  to  the  pulmonary
parenchyma.     This  complication,   instead  of
presenting  a  more  aggravated case,  rather, as
M.  Laennec  remarks, mitigates the  severity of
both   diseases;   and this  from a  cause  purely

  * Flimsy and unmeaning words these, and yet necessary in our ig-
norance.  The study of pathology has done much, and will do more
for the  improvement of medical science ; but when shall that propiti-
ous day come, when the art of medicine shall cease to be a hovel of
disjointed material'? when—with foundation in  firm nature, laid,
built and cemented by science—shall it really prove the temple of
Hygeia, a certain refuge from the tempest of disease ? 
PHYSICAL SIGNS,
139
mechanical.     The   pressure  exerted by  the
pleuritic  effusion  moderates  the  inflammatory
action in the lung; and, again,  the lung in some
degree  consolidated by the  inflammatory  pro-
cess,   not  yielding to  the  encroaching effusion,
sets  limits  to  its accumulation.   If,  however,
the   intensity  of a   pneumonia  is   diminished
by a cotemporaneous pleurisy, its duration is prob-
ably  prolonged;  for  the  process of   resolution
is  always  much slower in this than in the  simple
case.   This is because  the  interstitial effusion
is  more  solid, and less  mixed  with  the  serous
exhalation  produced  by  common  inflammation,
and  which cannot but assist in the  discussion of
the   denser  products.   On the other  hand  a
pleurisy,  coinciding with  pneumony,  will  be of
easier and speedier  cure, inasmuch as  the  effu-
sion is less abundant.*
   The  signs of pleuropneumony are, as may  be
expected,  a combination of the signs of   pneu-
monia  and  pleurisy.    The crepitant rhonchus
will  be heard in  all those parts  of  the lung,  af-
fected  with  inflammation,  that are  not  pushed

 * It is by inflammation, thus modified by pressure, that is  produced
that change in the lung, called by Laennec carnification. The tissue
of the lung in this state has the color and consistence of flesh, is no
longer  crepitant, and presents no traces of the vesicular  structure:
The supurlative stage is scarcely ever observed in it; M. Laennec
has, in a few instances, remarked a kind of yellow carnification, per-
haps a modification of the third stage. 
140
PLEUROPNEUMONIA.
away too far by the effusion.  It may, therefore,
be  looked for  at  the  root of the lung, and  all
round  the middle regions of the thorax;  and  it
may sometimes be  heard in other parts.   Again,
the  aegophony,   the sign  of  the  pleurisy,  is
commonly  to  be found at the root of the lung;
and   here it is  generally  combined with   a
noisy  bronchophony  proceeding from  the large
bronchial  ramifications.    This  combination  of
aegophony  and  bronchophony  M. Laennec com-
pares to the  squeaking  voice   of   punchinello.
The  comparison is pretty exact, but  not quite
adequate to represent the  impression.  Besides
the punchinello  voice, composed  of a buzz  and
a  squeak,  there  is  a  tremulous or  vibratory
character in the  sound,  which  seems  alternately
to approach and  recede from the  ear in  sudden
jerks.   These  signs,  as  they  usually continue
throughout the disease, render it very easy of re-
cognition.
   The  occurrence  of  extensive peripneumony
with  copious  pleuritic  effusion  is comparitively
rare.   It is more common  that  one  disease has
the predominance,  and  is  attended only with
a  slight degree  of  the   other.   Inflammation
occupying part of a lung,  is  frequently  extend-
ed  outwardly to the pleura,  which becomes
covered at that  point with  a  thin  coating   of
coagulable lymph,   and  secretes  a seropurulent 
VARIETIES.--SIGNS.
141
liquid :  and it is a  remarkable  fact  that  lymph
is often effused also by the  corresponding  point
of  the "costal  pleura, the  inflammation  being
propagated   by  contiguity*    The   aegophony
on  the  one  hand,  and the crepitant  rhonchus
on the other, will easily distinguish  such  a case.
But if   the  whole of  a  lung  be  inflamed,  and
converted  into  a  solid  mass,  although  there
be  no  liquid  effusion  in  the  pleura,  the  only
sign that will distinguish the case  from  that of
a copious pleuritic  effusion, is a  more  noisy  and
almost   pectoriloquous   bronchophony   at  the
root of the lung.   But if this case  has  been  ob-
servedjn its  progress, the  characters of the first
stage  of  pneumonia  must  have sufficiently  an-
nounced its nature.
   Pleurisy is sometimes  accompanied by  a  cir-
cumscribed,  and  even lobular  pneumonia,  mo-
dified in the manner  above described.   This   in-
flammation will generally   be announced in  some
corresponding  point   of  the  chest,  wj^ere  the

  * This is one instance, out of many of the same kind, which seem
to indicate that the  assimiiatory power of inflammation, or perhaps,
even its proximate cause, is of a nature more  mobile and subtle than
can be explained from any known modification of vascular action.
The Broussaians resort to the term irritation, less exceptionable only
because more vague :  ' Res non verba quaeso.'  These,  and many
othor phenomena seem to me to approximate  certain vital properties
to electrical or galvanic influence. Such an explanation must,  how-
ever, yet be in the uncertainty of remote prospect -. we have not yet
arrived at the ground of its proofs. 
142
HYDROTHORAX.
stratum  of  pleuritic  effusion  is  thin,   by  the
crepitant  rhonchus.   In short,  it  is  easy,  from
a  knowledge  of  the pathology  of pleuropneu-
monia, to  predicate all  the  varieties in  its  phy-
sical signs, as they indicate more of a  pleuritic  or
of a pulmonary inflammation.

           Section III.—Hydrothorax.
   It was formerly the  common  opinion,  and  is
even  now  believed  by  many,  that idiopathic
hydrothorax  is  a very  common  disease,  pro-
ducing a   formidable  array of symptoms,  and
often  causing death   by  suffocation.   In  these
late   years  the   erroneousness  of  this opinion
has   been  shown;  on the  one  hand, by the
study  of  pathological  anatomy, which  has dis-
covered, in the supposed cases  of simple  hydro-
thorax,  extensive   organic  causes  of   disease,
without any  effusion; and,  on  the  other  hand,
by auscultation  and percussion,  which  have not
only proved the same during  life, but have  like-
wise taught us that  hydrothorax, when it  does
exist,  can have  but a very  small  share in  pro-
ducing the  symptoms that  have hitherto  been
ascribed to it.
   In  fact,  simple  and idiopathic  hydrothorax,
or dropsy  of the pleura,  causes  but one general
symptom,  dyspnoea;  and this  to a very  slight
degree, unless   the  dropsical   effusion  be  very 
PHYSICAL SIGNS.
143
abundant,  and of sudden formation.  A symp
tomatic  hydrothorax  is  sometimes  produced a
short time before  the  fatal termination of  or-
ganic  diseases of  the  viscera;  and, excepting
dyspnoea,  these  cases  are  attended  with  no
symptom, that is not  frequently  present in  the
same diseases, terminating without   hydrothorax.
In short, I need only  refer  to  the  history that
I  have  given of  pleusisy,  to show  how  very
slight and uncertain are  the symptoms  of even
an abundant effusion in the pleural  cavity.  The
physical signs  are  the  only  certain  tests  of its
presence;  and,  in  the  present  instance,  they
will  be  equally infallible:  I need  scarcely  ob-
serve, that they do not differ from  those of  the
pleuritic  effusion.    An  idiopathic  hydrothorax
is to  be distinguished from  this latter  case  by
the  absence  of  fever  and  other  constitutional
symptoms, peculiar to pleurisy.
   Symptomatic hydrothorax will  combine  with
the  cemmon   signs of   pleuritic  effusion,  those
of   whatever organic  disease  it  is  the conse-
quence ; and  this will generally  be  found to  be
some  lesion  of the   circulatory  appparatus,  by
which its function is extensively  impeded.   Laen-
nec  states that   it  scarcely  ever  supervenes
earlier than  a few  days before  the fatal  ter-
mination  of   such   diseases,  and   may,  there-
fore,   be  considered the  immediate harbinger 
144
PNEUMOTHORAX.
of death, the  agony  of  which  is  increased  by
dyspnoea.

           Section IV.—Hemothorax.
   Besides in  the case of  haemorrhagic pleurisy,
formerly mentioned, blood  may  be infused into
the sac of the pleura from a wound, by  the rup
ture of an aneurism, by pulmonary apoplexy, and
by  a  passive transudation.   As  long  as this
blood remains liquid, it must produce  the  same
effects as we  have  described of serum in the
same situation.  When coagulated, it  would ren-
der obtuse the sound of  percussion,  and diminish
the  respiratory murmur  in  proportion  to   its
quantity; and might, perhaps,  produce  broncho-
phony, but not aegophony, for that, as  we  have
seen,  is   the  result   only  of a  liquid effusion.
Some, therefore, of  its physical signs  would ena-
ble the practitioner to distinguish  pneumothorax
from other solid or liquid formations in  the tho-
racic cavity.

          Section  V.—Pneumothorax.
  Pneumothorax, or a collection of  air in the
pleural sac, may  be  either active  or  passive.
It is active when  the  air, whether exhaled from
the pleura,  or generated by  the decomposition
of a liquid effusion, by the  force of its own  ac-
cumulation,  presses  back  the  lung  towards  its 
VARIETIES.
145
points  of attachment.   It  is passive when  the
air,  either  entering by a  communication  with
the  external air, supplies the place  of the lung
diminished  by its  own  collapse,  or  generated
within the  sac, fills up a cavity  left by  a  re-
absorbed collection  of  liquid, after  those cases
of  pleurisy in  which the  lung is bound  down
by  a fibro-cartilaginous  membrane, and  the pa-
rietes of the chest cannot by their collapse oblit-
erate  the  cavity.    This  division includes  and
defines all the varieties of pneumothorax.
   The  most common of all these is that variety
of the passive  form which results from a  fistu-
lous  communication  between  the  pleural   sac
and  the bronchi.   This communication is  usu-
ally   caused  by  the  tubercular  ulceration   in
phthisis,  extending  itself  through  the   pleura.
The  pneumothorax, in this case,  is  usually  ac-
companied  by  some  pleuritic   effusion,  excited
by  the entrance of  softened tuburcle  or some
extraneous  matter  from  the  fistula.    Active
pneumothorax  is of rare occurrence, and is gen-
erally   like  symptomatic   hydrothorax,   with
which it is  sometimes  conjoined,  the  precursor
of death.  It sometimes accompanies the pleurisy
excited  by the bursting of  a tuberculous  vomica
into the pleura, where there is no  communication
with the  bronchi.*
             * Louis Rech. sur la Phthisic.
                       19 
146
PNEUMOTHORAX
   The physical signs of  pneumothorax are  very
characteristic,  but  they  vary  considerably,  ac-
cording  to  the form of the disease.  In  all  the
varieties, but  particularly  in the  active   kinds,
the  tympanic  sound of the chest  on percussion
is  increased, so that the diseased sounds as well
as, or even better than, the healthy side; the rea-
son   is  too   obvious  to   require   explanation.
Hence percussion  alone may be a source  of  error.
Auscultation will correct it, and  a certain   diag-
nosis   may  be deduced from  their  conjoined
indications.   The  sound  of  respiration  will, by
the  pressure  and interposition of the air in  the
thoracic  cavity,  be  obliterated in all parts ex-
cept  at  the root of the lung; whereas,  in  early
pleuritic  effusion, it may  still be heard.   Where,
therefore, the   chest  is  sonorous on percussion,
and  yet   no  respiratory   sound  heard, it   may
safely  be concluded that  a  pneumothorax  exists.
The   only  case  in  any  degree  approaching  to
this  is that of  emphysema, but in this the  sound
of  respiration  is  only diminished,  not entirely
destroyed, and the  presence  of  an occasional
sibilation, and  still more certainly  its pathogno-
monic  sign,  dry  crepitation, will  clearly   distin-
guish this disease.  Add to these, that the  sound
of respiration,  absent in other parts,  remains au-
dible  at  the root of the lung  in pneumothorax,
while  no  such difference  is observable in em- 
WITH LIQUID EFFUSION.
147
physema.  In pneumothorax, as  in  pleuritic  ef-
fusion, the  lung is sometimes retained in contact
with the chest here and there by adhesions;  and
at these  points  the  respiratory  murmer is  not
obliterated.   Hence  the necessity of examining
every  part  of the thoracic surface before a  cor-
rect knowledge  can be attained  of  the  physical
state of  the organs contained in it.
   When there is a collection of both  liquid  and
air in  the pleura, the chest is of  course  less  so-
norous  on  percussion  than  in  simple  pneumo-
thorax ;  but then the inferior parts sound  very
dull, while  those above emit a clear sound,  and
the transition from one to the other is often  very
abrupt.   On  practising percussion too,  in differ-
ent  postures,  the presence of a  liquid will be
discovered  by its  rendering the  sound  obtuse
always in the  most dependent parts of the thorax;
while the air, rising to the superior parts, gives
them a tympanitic resonance.
   It is in these cases that the presence of  the
liquid  becomes frequently perceptible to the  ear
by the  sound of  gurgling   or  fluctuation,  into
which it is thrown by  the respiratory move-
ments,  or  any  sudden motion  applied  to  the
thorax.   Here  it  is, therefore,  that the succus-
sion,  or  saltatory agitation,  employed  by   Hip
pocrates, furnishes  a physical  sign  of  pneumo-
thorax  with liquid effusion.  The  best method 
148
PNEUMOTHORAX.
of obtaining  this sign is by the patient himself
making a  lateral jerking, or a half rotatory  mo-
tion  with  his trunk, in  the sitting posture.  If
he  be too weak for this, the succussion may be
effected by another  person  applying  his  hands
to the shoulders.   On  applying the ear  to the
chest, in such a manner as not  to interfere with
the  motion  of  succussion, the  fluctuation of the
liquid will be heard as in a cask  or vessel  par-
tially filled, when it is shaken; and a  reference
to this  analogous  case will suggest to the  ope-
rator the  most effective  method  of  producing
the   phenomenon.    The   roughness  of   this
method of examination should  preclude its  em-
ployment in all cases of great debility,  or painful
irratibility; for although I  believe with   Laen-
nec that it  is much less  fatiguing  than  would at
first  be supposed,  yet the  excitement that  it
produces must, in these cases, be necessarily  inju-
rious.
   There   are  yet other  signs  by  which the
auscultator may recognise  the presence  of  air
in the thorax.   They are of singular  character,
and have  been considered of different explana-
tion; but  I  apprehend  that  the  hitherto   too
much neglected study  of  acoustics will  furnish
us  with a key to open the mystery.  Every one
knows  that an empty room  yields  a  kind  of
reverberation  or prolonged echo  to  any  sound 
       EXPLANATION OF TINNITUS METALLICUS.      149

made  in  it.   Need I  explain  that  this  ocho  is
the   sonorous   vibration  repeatedly  reflected
from  the walls around.*   The  echo  is  in such
cases  chiefly  in unison, or  in  the same   note
with  the original sound.   But substitute for the
room  of many  cubic feet  capacity,  a cavity  of
only  a few  cubic inches, the  sides  of  which are
still  good  and uniform reflectors  of  sound, and
then  a  soniferous impulse, communicated to the
air  within it, will be so  rapidly  reflected  by  its
parieties,  that the vibrations will be increased  to
a  double, a triple,   a  quadruple,  &c.;  and the
reverberation,  instead of being,  as  in the  former
case, in unison with   the  original  sound,  will  be
in  its octave, its 12th,  its  15th, its  22nd,  &c.f
Such an acute  note  rapidly dying  away, strono--
  * The more perfectly and uniformly reflective the walls, floor  and
ceiling of the room are, the more complete and durable will be  the
reverberation; one built entirely of stone, illustrates this in perfection.
The form has little to do with the present question, except  that  the
more uniform the surface, the less is the original sound changed; and
a hollow sphere, therefore, best presents this condition.  The com-
plication of form would modify the sound ; and  dissimilarly reflect-
ing composition would neutralize or destroy it. Hence a room crowd-
ed with people, with various furniture, yields little or no  reverbera-
tion.
  t In short in its octave, and in any of its harmonics above.   This is
according to a law in harmonics well known to scientific musicians.
  These acute sounds are likewise produced  in the reverberation of
the large room, but are obscured by the louder note of unison; just
so a base cord in vibration may be said to contain all the harmonics
above its octave. It affords by itself a chord of real harmony; and a
delicate ear can distinguish five or six of its contained notes.   But
the subject, syren like, seduces me. 
150
PNEUMOTHORAX.
  ly  resembles  the  tinkling  sound  produced   by
  bodies  of powerful  molecular  elasticity, such  as
  glass,  metals,  &c.   The  elements necessary  to
  produce such  a  metalic  tinkling,  therefore,  are

  I.  a  cavity of uniformly  reflecting parietes ;  and
  2.   the  communication  of  a  sound,   or  of  a
  soniferous  impulse  to  the  air  contained  within
  it.*

    Now  it  may  be   perceived  that  pneumotho-
  rax   may   combine   these   conditions;  let   us

   * There are many other instances of the production of this metallic
 tinkling in the body, and all of them unite these  conditions.  It may
 be heard by the stethoscope applied to the stomach of a  person swal-
 lowmg water by teaspoon fuls.   It may often be heard in the intestines
 distended  with gas by the sudden motion  of liquid in them.  An ex-
 ample of its production, too important to  the auscultator to pass unno-
 ticed, occurs in the meatus auditorius externus, on covering the ear
 with the palm, and lightly tapping on the back of the hand.   Now
 this sound m the ear is sometimes excited by an external impulse du-
 ring auscultation, particularly immediate, and might be readily refer-
 red to the  chest of the patient.  Laennec himself, not aware of the
 facts I have stated, has fallen into this error.  He describes in his sec-
 ond vol., p. 445, a cliqtietis metellique occasionally heard in the precor-
 dial region of persons affected with violent nervous palpitations •  and
 considers it a sign of the presence of some bubbles of air in the 'peri-
 cardium.  He has shown me instances of this symptom, and I have
 since convinced myself, by repeated observation,  that it is produced
 solely in the meatus by the impulse communicated to the air within it
 Other instances of its production, as on applying the  hand to the ste-
 thoscope or naked ear and rubbing  together  in different ways the
 fingers, which Laennec refers to the presence of air  in the capsules
and sheaths of the tendons, may be clearly traced to the same cause
by any one who will take the troubh to vary  the experiments   For
example, lay the ear flat upon the table, and tap  the table with the fin-
ger, or somethmg of analogous density, and  the stroke will still be
heard accompanied with the same metallic clink. 
           ^IGNS--TINNITUS METALL10US.       151

study  what  forms are most favourable  to  their
union.    The  cavity is  always present  in  pneu-
mothorax, but it  is  best  calculated  to  produce
the  tinkling  echo when  its  parietes are  tense
and  regular,  as  when  the  lung is  bound  down
by a  fibro-cartilaginous membrane.   The  soni-
ferous   impulse  may  be produced  within  the
cavity, or may be communicated to it from  with-
out.   The only cause of sound within the  cavity
would be a  portion of  liquid  contained  in  it,
dropping  on  change   of  posture,   or   in the
motions  of respiration,  from  the upper to the
lower  parts.   Such  a  case  of metallic tinkling
is rare, but Laennec  records  an  instance,  and  I
have  myself  met with one.   The  sound  is  in
this  instance,  as Laennec describes, like  that  of
a  drop falling into a  decanter, a  fourth full  of
water, followed  by  a  prolonged ringing.   The
symptom in   this  case  of  course indicates the
presence  of    liquid  as well  as of  air in  the
pleura.
   Sounds, external to the cavity, may  cause the
tinkling   echo  within  it;  and  they may  be
communicated in  several  ways.   Thus  a  fistu-
lous communication with the  bronchi  may  trans-
mit  a  sonific  impulse  to  the   cavity  on  the
occasion  of   speaking  or coughing,  and  this  is
by  far  the   most  common   case  of  tinnitus
metallicus.  It is  here most  perfectly produced 
152
PNEUMOTHORAX.
when  the  fistulous communication  is  short,  but
narrow,  and  the  bronchus  is of  considerable
size.   The  sound  is  then heard  immediately
after  the cough or utterance,  like  that yielded
by  a  wine glass when struck by a pin, and  is  of
longer or shorter duration.   Sometimes, but more
rarely, the same tinkling sound accompanies  res-
piration.   If the fistulous communication  be  large
or  if  there  be several, the tinkling is  changed
into  a  hollow  buzzing sound,  like  that   pro-
duced by blowing into an  empty  bottle ; where-
fore  Laennec calls  it  amphoric resonance.  This
is  most  distinctly heard during  respiration,  but
likewise  accompanies the  cough and  the  voice.
Amphoric  resonance is obviously caused by  the
passage  of  air in and out  of  the pleural cavity.
This  passage of air  deranges the reverberations
that   produce  the  tinkling  echo  within  the
cavity;  hence  amphorie   resonance  either im-
pairs,  or completely destroys the  tennitus metal-
licus.   Let the  observer bear in mind these cir-
cumstances, and he will then perceive how metal-
lic  tinkling may  be  succeeded  by amphoric re-
sonance, on an  enlargement of the fistulous com-
munication  with  the   bronchi;  and  how  the
converse  may result from  its contraction,  and
that both will cease  on its occlusion.    To some
degree the same effects may  proceed  in certain
cases  from  different  degrees of  force  in  the 
       CAUSES OF THE METALLIC TINKLING.      153

respiratory  movements,  which  may of   them-
selves open and shut the  fistulous aperture.   In
all cases on record, this  form  of pneumothorax
has been accompanied with  more  or less  liquid
effusion, and probably this is a necessary  attend-
ant of the pleurisy excited by the access  of air
or extraneous matter  through  a fistulous com-
munication with the bronchi.  That may  there-
fore be anticipated, which I  have  had frequently
occasion to observe in  practice,  that  this  liquid,
by occasionally  covering  more or  less  complete-
ly the fistulous aperture, may  also modify,  di-
minish,  or destroy either  of  the  symptoms  which
I  have  been  describing.    Hence  change of
posture, by altering the  situation of the  liquid,
may  assist  the  auscultator to  the  discovery of
the symptom; and in some cases might even  lead
him to  calculate  the  situation  of  the  fistulous
aperture.
   Laennec  considered  metallic  tinkling a  pa-
thognomonic  sign  of pneumothorax  with liquid
effusion   and  fistulous communication  with  the
bronchi.  The  accuracy  of  this opinion  I  am
led  by  theory  and  experience,  to call in  ques-
tion.    From the  theory that  I  have given, it
may be judged that although such a lesion  may
be the most frequent cause of  this symptom.
it needs not  such  a  complicated state   to  pro-
duce it.   The cavity being present,  as we have
                       20 
154          PNEUMOTHORAX--SIGNS,

said,  in  pneumothorax, a cause  of the tinkling
echo in it may be  found  in  the transmission  of
a  sound  or  sonific  impulse  through  solid pari-
eties.  For example,  the voice  or  cough  may
communicate such impulse whenever,  by  an in-
duration  or condensation  of the  pulmonary  tis-
sue,  it is  rendered capable of conducting  to the
cavity the  sound from  any large  bronchial tubes.
Such a condensation, we have seen  may be  pro-
duced by inflammation, and by the  pressure  of  a
liquid effusion,  and  might, doubtless,  in  some
cases result from the pressure of the  air  of the
pneumothorax, itself.  Add to these the case  of
pneumothorax, combined with  such  tuberculous
excavation  of  the lung that pectoriloquous re-
sonance  is  transmitted from it  to  the pleural
cavity, but without fistulous  communication :—So
far in theory.
   Now in the way of  fact,  Laennec  himself fur-
nishes two  examples,  which analytically prove
the point at which we  have  arrived  by theory.
In one,  the tinkling  was  produced in pneumo-
thorax,   where   there   was no  communication
with the bronchi  or external  air, by  the drop
ping of  a liquid in the  cavity*   Another case
presented  the  tinkling  echo   after  the  voice
although there was no communication with the
bronchi, but only with the  external  air  through
* The case before alluded to, Tome II, p. 343, of Laennec. 
METALLIC TINKLING.
155
a puncture in  the thoracic  parieties,  (Tome  I.
p. 113.)   These cases  remove  two of the con-
ditions  specified  by  Laennec,  as  necessary to
the   production   of metallic tinkling;  namely,
communication   with   the   external  air;   and
transmission   of  the  voice   through  a  fistulous
opening in the bronchi.
   The following case, which fell under  my ob-
servation  in the ward of  M. Lerminier,  at La
Charite, shows that  the presence  of  liquid  effu-
 sion  is likewise  dispensible.   A  boy,  fifteen
years of  age,  had been for some weeks  affected
with pectoral  disease,  with  cough,  shortness  of
breathing, scanty expectoration, &c.,  but  these
had somewhat abated, until  a few  days before,
when they had become  considerably aggravated.
When I  first  saw   him, he  had  besides  much
fever, quick pulse, pain of side and  other symp-
toms  of  an  acute  attack.   On  percussion  the
left side  sounded well   everywhere,  but  in  the
inferior or lateral and  posterior region, where  it
was  rather  duller  than usual.   The   right side
was very  sonorous  on  percussion anteriorly  and
laterally, below the fourth rib ; less  so above, and
posteriorly.    On auscultation,   the  respiration
of the left side  was  distinct superiorly  and an-
teriorly,   but  mixed   with crepitant  rhonchus
laterally  and posteriorly, particularly  in  the  in-
ferior  parts.    No  bronchophony  or bronchial 
156
PNEUMOTHORAX.
respiration.   On the  right side the  respiration
was puerile below the clavicles and in the  axilla,
and  above the spine of the scapula; became less
distinct somewhat below,  and  was  quite  inaud-
ible below the  fourth rib, the  part  most  sono-
rous on  percussion.    In  this also,  after  cough
and  utterance,  a distinct metallic  tinkling  was
heard, which  appeared  not  to  be affected  by
change of  posture.   The next day  the  same
symptoms were present, but the crepitant  rhon-
 chus  had extended  upward in the  left  lung;
and the  patient  seemed  worse.    Tinnitus  as
 before.   Died in the  course  of the day.    On
dissection,  about  eighteen  hours  after  death,
 about  the inferior and anterior half of the  right
 side of the chest was found filled with  air, some
 of which escaped  with a hissing noise on  first
 incision; the lung was bound  down to the  whole
of the posterior, and  the  upper portions of the
lateral  and anterior  parieties  of the  thorax,  by
 a  pretty  firm  fibro-cartilaginous   membrane,
 which  also thickened  the  costral pleura  of  the
 cavity.  There was  not a drop  of liquid  in  the
 cavity, and there was no  communication with the
 bronchi.  In the inferior lobes of the  compressed
 lung were found  three  hydatids  contained in,
 but not connected  with,  a  cavity  lined with  a
 fibrous membrane.   The  tissue  of  the  lung was
 flaccid,  and  compressed  in  their  vicinity,  and 
METALLIC TINKLING.
157
bounding  the cavity containing  air,  but  above
it was healthy and  crepitant.  The  lower lobes
of the left lung  were found  in a hepatized state,,
which  passed  superiorly  into  simple inflamma-
tory engorgement;  and  still higher  up the tis-
sue was  healthy.  There were  no  tubercles in
either lung.  The  rationale  of the  symptoms is
in  this  case obvious.    The tinkling  echo was
produced  in the  cavity by the voice,  transmitted
to it by the  pulmonary  tissue  condensed  hy the
hydatids,   and perhaps  also by a  former  liquid
effusion in the pleura.   This  effusion had  been
absorbed,   and the lung  being bound  down by a
factitious  membrane, a   pneumothorax of neces-
sity was left.  Such a case of tinnitus  metallicus
must be very rare, as neither Laennec nor Andral
have met  with it: and  1  believe  that although not
in all, yet  in by far the majority of  cases, the or-
ganic causes  of metallic tinkling are  such as Laen-
nec has defined  them.   The liquid effusion  1 can-
not consider as one of the causes combining to pro-
duce it, but merely a necessary accompaniment of
its  cause,  fistulous communication  between the
pleura and bronchi.
   I have  been  longer  on this  article than its
importance may  seem to require, but the obscu-
rity of the  subject  demanded it; and if I have
shown that  the stethoscopic signs are less cer-
tain than they have been  represented to be, this 
158
PHTHISIS PULMONALIS.
may prevent  future  error,  and  improve  our
knowledge by guiding  us  to others  more  defin-
itive.
CHAP.  IV.
             PHTHISIS PULMONALIS.

             Section  I.—Pathology.

  The  disease  termed   phthisis pulmonalis,   is
produced by  the formation of a particular  matter
called  tubercle, in  the tissue of  the lungs.   It
would perhaps be more consistent with the order
of the  work, if I had placed  this disease among
those affecting  particularly  the  pulmonary tex-
ture ; but I have been induced to prefer allotting
to it this  separate chapter because the previous
examination of other  simple  diseases will better
enable  us  to understand  the  pathology  of this
more complicated one.
  I shall first trace the  progress  of  the changes
which morbid  anatomy   has shown  tubercles to
undergo in the progress of the disease, and after-
wards inquire into their nature and origin.
  The  lungs of those who die phthisical, present
some, or all of the following changes:— 
GRANULATIONS.
159
   I. Small, roundish, semi-transparent bodies, of
greyish or ash-colored  hue,  of different  shades,
of a size varying from that  of  a  millet seed  to
that of a  hemp seed, and  of  hardness  nearly
equal to that  of cartilage.  These  little bodies
are dispersed about the  substance of  the  lung
in variable numbers,  here  isolated,  and  in  a
tissue  otherwise  healthy;  there  agglomerated
together in clusters, and surrounded by a  texture
more  or  less  diseased.    Some  are found, on
close  examination,  and  on   incision, to differ
from  others, in having within  them, generally,
but  not always, about their  centre, an opake
yellowish white  spot,  which traced  in different
ones, may be  observed  to   be  small in  some,
larger in others, and  in some  to  constitute the
principal  part of the little  miliary body.
   2.  A diffused induration  of  the   pulmonary
tissue,  in  color and  consistence resembling the
preceding, but of greater  extent than they, and
confined  to  no particular size  or  form.    The
texture of the lung can  no  longer be detected
in the part thus affected, and,  when  cut  into,  it
presents  a  mist,  homogeneous shining surface,
and is  totally  impermeable to air.    Sometimes
the   duration  is  inconsiderable,   although  the
other  characters remain ;  and in rarer cases the
change seems to be produced by the infiltration
of a  matter  nearly  gelatinous, slightly  sangui- 
160
PHTHISIS  PULMONALIS.
nolent, which  more or less obliterates the  pul-
monary  texture.    This  might  be  considered a
distinct  alteration  frovn  the others,  were it not
that  their  coincidence   and  mutual   gradations
seem to identify them.*   The tissue thus affected
becomes,  like  the  miliary granulations, invaded
by  the  yellowish  white  spots;  only  these spots
here   appear   irregular  as to  form   and  num-
ber, and extend, and gradually convert the whole
into—
  3.  Opake  masses, of a yellowish  white  color,
of various  size, generally  of  a roundish  form,
and   of  consistence at   first  considerable,   and
nearly equal  to  that  of  the  matter  in which
they  were produced ;  but, in  the course of time,
they  gradually   become,  in  consistence  and co-
lor,   like   soft  cheese,  and   at   length  attain
the  liquidity of puss : this change always begin-
ning  towards the  centre.  The   miliary  bodies
become likewise converted into little  yellow gra-
nular tubercles  when  isolated;  but when in a
cluster, frequently  run  together  into   one tuber-
cular  mass  of   considerable  size.   The  yellow
tubercular  masses  formed in  the  diffused indu-
ration may, of  course, be of form and size as
varied as those  of  the matrix in which they are

  * This gelatinous effusion, according to Laennec, is generally ob-
served accompanying the miliary granulations before mentioned, par-
ticularly secondary ones, produced after others have suffered the chan-
ges to be described immediately. 
            PATHOLOGY--EXCAVATIONS.         16 1

developed.   But  the  yellow  tubercle  seems
likewise sometimes to increase of  itself,  to ex-
tend beyond the limits of the previous induration,
and  to  encroach  on  the surrounding  tissue.—
In some  few  instances  this progress is  limited
by the formation of a fibrous  cyst.   The yellow
tubercular  matter  is   apparently  produced  in
some  cases,   without  the  previous  induration,
whether miliary  or diffused ;  and  a yellow tu-
bercular infiltration of this kind is not unfrequent-
ly found in the lungs  of children.   After the
softening of the  tubercular matter, it  is  evac-
uated  by  a fistulous   communication,  general-
ly into the bronchi,  and  rarely  into the  pleural
sac.
   4«  After the  softened  tubercular  matter  is
evacuated, an ulcerous  cavity is left, whjch pre-
sents to the anatomical .observer a  great  variety
of form.   The walls of the cavity are sometimes
simply  the  pulmonary  tissue,  more  or  less
red with inflammation.   The result of this in-
flammation (excited probably by  the  irritation
of  the tubercular  matter,) is, during life, on the
one hand the condensation  of  the  pulmona-
ry   texture  surrounding the  cavity;  and,  on
the other,  the  secretion  of liquids  more  or
less purulent,  and  of  a coagulable  lymph, by
which a kind of lining is formed  within  the ca-
vity.  The effect of this latter process is shown
                      21 
 162          PHTHISIS PULMONALIS.

 in its various stages  of  advancement  in  the ca-
 vities of different ages that are met with on  the
 examination  of  phthisical lungs.  The  coagu-
 lable lymph becomes, in time, converted  into  a
 fibro-cartilaginous membrane, the thickness  and
 firmness  of which are generally in proportion to
 its age.
   The   cavities  are very  various  in  size  and
 form.   Some  would not contain more  than  a
 pea, while, occasionally,  a  cavity  is found occu-
 pying a whole lobe.   Cavities of large  size  are
 most commonly formed by the  reunion  of many
 smaller  ones,  produced by  the evacuation  of
 their  softened  tubercular  contents.    The ul-
 cerative   process, as  it  is  necessary  to open  a
 communication  between cavity   and  cavity,  and
 between  these and  the  bronchi,  so  also often
 extends the  limits of a cavity by  encroaching
 on the healthy  tissue.   In this   way a  lobe is
 sometimes reduced to a mere sac, composed  of
 the pleura, and  a  thin  layer of condensed pul-
 monary tissue.    In  other instances  the  ulcera-
 tive process has been less active,  and  the cavity
 may then be sinuous,  multilocular, or composed
 of  several small cavities  communicating with
 each  other.    Occasionally,  bands of condensed
 pulmonary tissue, crossing a cavity, are  all  that
remain  of the  divisions of former small ones.
Cavities  recently formed,  or  which  have  only
* 
PATHOLOGY.
163
recently  communicated  with the  bronchi, usu-
ally contain besides some remains  of the tuber-
cular matter in  the form  of  a curdy liquid pus,
and a  greyish or  brownish grumous liquid, se-
creted by the inflamed parietes.    Sometimes  a
little blood is  found mixed with  these, but this
is seldom to a great extent, as the  vessels which
terminate  in  the  cavity  are almost  constantly
closed  by  coagula, and  the adhesive inflamma-
tion.   The quantity  of  liquid secreted by  tu-
bercular cavities is diminished by  the formation
of a  fibro-cartilaginous lining, and  when  this  is
complete, the  secretion is  nothing   more than  a
scanty serous, or  sero-mucous liquid.  Thus  far
of the anatomical history of phthisis pulmonalis;
more particulars will be learnt from its physical
signs.
  It appears,  then, that  the principal changes
of the tissue  of the  lung in  phthisis pulmonalis
are of two kinds ;  1. an induration of a grey,  or
greyish  brown  color; 2.  the  production, gen-
erally  in this induration,  sometimes elsewhere,
of a yellowish white matter, at first rather hard
but becoming  gradually softer, until  it attains the
liquidity of pus.   Now, let us endeavor to dis-
cover what is  the essential nature  of  each  of
these changes, what it  is  that causes them, and
in what relation they stand to each other.
  Now, in  the  grey  induration  of  the pulmo- 
164
PHTHISIS  PULMONALIS.
nary tissue, whether granular  or diffused,  two
things are  remarkable;  first,  that there  is an
increase of substance, for the  spongy  texture of
the  lung   is  obliterated and  solified;  secondly,
that  its substance  is  harder  than the healthy
tissue; * the first  denoting the deposition  of  a
greater number than usual  of molecules  by the
nutritive secretion;  and  the  second  proceeding
partly from the  same  cause, and , perhaps, partly
from  these   molecules  being  unusually  solid.
Now the  local  increase in  the nutritive  secre-
tion  must  have been preceded  by  locally in-
creased vascular  action;  and  from  the degree
 by which  the  increased secretion  exceeded that
 of simple  hypertrophy of the existing parts, and
amounted  to  an  overflow and effusion  in their
interstices; it  may  be  judged  that  the  patho-
 logical increase was not less  than inflammation.
 Inflammation  we  know  to  cause  an external
 overflow of the nutritive  secretion;  and  1 have
 beforet endeavored   to  show why  the  acute
 form should generally produce a soft  tumefac-
 tion, and  the  chronic  an indurated  increase of
 substance;  facts   sufficiently   established   by
 Andral and  others.  How,  then  can  we  view
   * M. Andral has remarked that miliary granulations do not always
 present this indurated form, but that a careful examination may often
 delect small bodies  of the same shape and size, but of soft consistence,
 and of a red color.
   t See Section on Pleurisy, p. 115. 
             NATURE OF  TUBERCLE.            165

the induration of the  lung which  precedes  the
formation  of tubercular  matter  in  any  other
light than in  that of an effect  of  chronically  in-
creased  vascular  action;  in  short,  of chronic
inflammation?   Let us, by following it  in its
further progress, see whether its ulterior changes
destroy or increase the analogy.
   We have  found that, after  a  time more or
less protracted,  the indurated grey  semi-trans-
parent, but still organized   mass, presents whitish
points or  spots, which increase in  size, and at
length convert  the  whole  mass into a substance
of  a yellowish white  color; this  generally   re-
tains   at   first   the   former   consistence,  but
gradually  - losing    it,    becomes   that   soft
and grumous substance, known under the name
of  matured  tubercles.   Here  there is no longer
organization,  no  longer  distinction  of   parts;
where these  were, there  is now  but  one  con-
fused  amorphous magma.  Now  who can  fail
to see  in this change a  close resemblance to the
familiar process  of  suppuration;  familiar,  but
not less obscure than this.  If the  resemblance
is so  perfect  in  the  generalities, should some
slight variations  in particulars, still   explicable
from a difference  of  cause, by widely  separat-
ing the two  phenomena,  be made a  pretext to
multiply  the  objects   that  the  mind    should
grasp ?  If the fact may  be referred to a  simple 
166
PHTHISIS  PULMONALIS.
and established  law, shall  we still  leave it in the

already  burthened  and  unwieldy  list of  anoma-

lous exceptions ?  No   one  is  more  than  myself

averse from  hasty  and excessive generalization ;
but  still  more  am  I   an  enemy  to multiplying

rules,  when  the  advance  of science is  daily re-

ducing  knowledge   into   simpler   forms.   For

this  reason  I   would,,  were the Arguments equal,

incline to consider tubercles the  result of a kind
of   inflammation,  rather   than   with  Laennec,

form, on  their instance, a new  set of laws apart,

to be  applied to such bodies, under  the unmeaning
term of  accidental tissues*
   But  I   think  that  none  of  the  objections

usually  opposed to  the  opinion  that  tubercles

are produced by  inflammation  will  apply to this

view.   From our inquiry  we  have  been led  to

  *Much as Laennec has done in elucidating the history of phthisis
pulmonalis, his  opinions on tubercles and other diseased productions
have always appeared to me artificial and unsatisfactory.  Tubercles
according to this author an accidental tissue, are produced, or accord-
ing to some of his expressions, spring up, in a healthy tissue, without
any aid of the vessels of the part; are changed from a greyish semi-
transparent to an opake yellowish white, and pass from a state of car-
tilaginous hardness through intermediate gradations, into that of im-
perfect liquidity; and all this by mechanism, perfectly unknown, and
in a manner entirely unexplained.  It is too, in my opinion, without
sufficient reason, that he identified the granulations of Bayle with the
yellow tubercle, bodies quite different in their physical character, only
because the one is generally in  time converted into the other.—As
well might cartilage be ealled bone, or, (if the example does not in-
volve apetitioprincipii) inflamed cellular texture, a stage of pus. 
                NATURE OF TUBERCLE.            167

consider the induration which  precedes tubercle
as the result of a peculiar  form  of inflammation,
or  increased vascular action,   and   the  yellow
tubercular  matter  which   succeeds, a  further
effect  of   the  same  inflammation, analogous  to
suppuration.   It has  been  objected  by  Laennec
and others, who have denied  the inflammatory
origin of tubercles, that  phthisis  is  by no means
a common  sequel of pneumonia;  and I believe
that the  case   is  not   sufficiently  common   to
support the opinion that  the latter  is  often the
immediate  cause of  the former:  but  the  suc-
cession does not  appear  too  rare  to exclude the
supposition  that acute   inflammation   of  the
lungs,  by  passing  into  a   chronic   form,  may
terminate  in phthisis  pulmonalis  ;  just  as we
know  chronic  peritonitis, pleuritis,  &c,  some-
times date their origin in an acute attack.*
   This is  not, however, the  principal  question,
although one of  itself of great  practical  impor-
tance :  the main  point to  be  disputed,  and

  * The researches of my respected friend, Professor Alison, go far to
prove that even acute inflammation may determine the developement
of tubercular matter.  I have with him dissected the lungs of a child
in which matter^ bearing all the physical character of tubercle, was
found in parts in the acknowledged state of inflammation, whilst the
healthy portions were free.  Andral has recorded similar cases; and,
as will appear from the opinions that I afterwards expose, I consider
it as highly probable that many cases of what is called, gallopping con-
sumption are instances of the developement of tubercular matter,  by
acute inflammation in subjects of a strong phthisical diathesis. 
168
PHTHISIS PULMONALIS.
which Laennec seems to have evaded, is whether
the grey induration of  the lung, which precedes
the  formation  of   tnbercular  matter,  is  not
itself  the  result  of   a   peculiar   inflammatory
state, standing in the   same  relation  to  chronic,
as  hepatization does  to acute pneumonia.    We
have already, on  a physiological   discussion   of
the subject, been led to answer  this  question  in
the affirmative.   Laennec, following the opposite
opinion, has  met with  so few  cases  which  he
could   consider  instances  of  chronic   peripneu-
mony, that his view leaves  it  an  extraordinary
anomaly,  that  the  lungs  should   be   so rarely
affected  with chronic  inflammation.*    So  far
it   seems   reasonable   and  consistent  with  ana-
logy,  to  consider  the  lesion   in  question   as
chronic inflammation.     Pathological  anatomy,
which  was negative   in  the  hands of  Laennec,
favored this  view  in   the researches  of Andral,
by  showing  the  gradations  which  might  be
traced   between  inflammation and grey indura-

  * The only kind of explanation that Laennec offers is far from being
satisfactory, speaking of chronic inflammation, he says, ' il semble peu
probable qu' un organe aussi vasculaire, aussi mobile aussi essentielle-
ment vivant que le poumon, puisse conserver longtemps 1'inflamma-
tion a ce degre de lenteur et d'inactivite qui existe souvent dans les
affections semblables d'organes moins necessaires a la tvie.'  (T. 1. p.
475.) This objection, which if it had any force, ought to exclude its
occurrence at all, is just as applicable on the score of vascularity to
chronic inflammation in many glandular organs, and on the score of
vitality to the destruction of the function of parts of  the lung itself
by what Laennec calls accidental tissues, 
        NATURE OF MILIARY GRANULATIONS.     169

tion,  and  the  apparent  transition of  the one
into the  other.   I  have myself seen cases  in
which some  portions of  the  lung  were of  a
dark reddish color,  dense,  but  not  indurated ;
other  portions  were  lighter  in  color,  of   a
browner  hue, and harder in consistence;  other
parts  again,  had little  of  the brown tinge, but
were  more grey from  the mixture  of  black
pulmonary  matter,  and  in  consistence likewise,
closely  resemble  the  grey  induration  before
described;   while in the vicinity, this lesion itself
also occurred in an unequivocal form.
   What  1 have here said of  induration  in gen-
eral, will apply  equally  to  the  circumscribed
form, or miliary  granulations,  and to the dif-
fused induration ;  for they  appear  to differ only
 in  respect  to size.   The  constant  form  and
 shape  that  these  miliary  granulations present,
 become another matter of inquiry ;  and it seems
 probable that they are some  elementary part of
 the lung in  the  state  of  chronic  inflammation.
 Broussais conceives  them to be the  lymphatic
 glands;  whilst  Andral  considers  them  as  the
 individual vesicles,  or  single terminations  of  the
 bronchi.    The  latter  opinion  seems  the most
 probable, and is most  in accordance with  my
 own examinations;  but it requires yet further con-
 firmation to be established.
    We are then led to consider, with Andral,  yel-
                        22 
170            PULMONARY PHTHISIS.
low tubercular matter as  nothing   more  than a
modification of  pus, and  a tubercle  as a  kind of
abscess.    In  the  formation of the  yellow  tu-
bercle, the  indurated tissue is  removed  by ab-
sorption, and tubercular   matter  deposited  in its
place.*    Although  the grey  induration is  not
known  to  have  any  other   termination   than
this in  tubercular  abscess,   and  may, therefore,
be considered a stage  of  the  disease,  yet  the
more  peculiar   characters   of   phthisis   pulmo-
nalis  depend on the  formation  or  secretion of
tubercular matter.   Now, this tubercular  matter,
of albuminous composition,   must  be  considered
a   modification  of  the  nutritive  secretion,  still
more destitute   of  vitality t  than pus, and  quite

  * Since this was written, I have  read, with much interest, the Thesis
of my friend, M. Lombard, of Geneva; ' Sur les Tubercles;  Paris,
1827.'  He divides tubercles into simple and compound, and ingeniously
explains the softening of the substance of the latter by ascribing it to
the operation of the living portions of tissue that (as he has found) still
pervade it.  With Andral and myself he renounces the idea of tuber-
cles being an accidental tissue, or identical with the grey induration;
but considers them a peculiar matter secreted by cellular texture, inja
state of active or passive sanguineous  congestion.  The view which
he gives of accidental productions seems to me the most  simple and
philosophical that has yet been offered; and the whole work, as well as
my acquaintance with the abilities of the author, give me reason to
congratulate the profession that he is still engaged on this important sub-
ject, and will soon lay before the world the result of his extended labors.
  11 use this word rather to avoid circumlocution, than as implying
such a life in animal fluids as Hunter ascribed to them. Capability of
life would, perhaps, more nearly express my meaning; and this seems
to be generally proportionate, in the products of inflammation, to the
energy of the orgasm, the overflow of vitality that generates them. 
PATHOLOGICAL CAUSES.
171
incapable  of   organization.   Although  it   may,
therefore,  be  generally  considered  the   result
of a lower degree of  vascular  action  than that
which produces  pus, yet it  appears to be  some-
times secreted  by  vessels  inflamed in  different
degrees,  and even by those not  inflamed  at  all.
It  is this disposition,  in vessels, in  different  states
of activity, to  tubercular  secretion, that  consti-
tutes,  what  is  called  tuberculous  diathesis; and
where this  prevails,  the  pulmonary and  other
tissues,  apparently   unaffected  with  inflamma-
tion,  are   sometimes  found  infiltrated with  tu-
bercular matter.    Whatever  be the cause which
determines the  secretion in  these cases,*  the
formation  of pus appears also to be sometimes in
the same  predicament; for I have  known  cases,
and Andral  records some, in which the presence
of  pus,  whether in  abscess, or  secreted  by a
  * M. Andral hints that the disease may here be humoral,  and de-
pend on the formation of tubercular matter in the blood, and the idea
appears plausible.  I am myself  disposed to consider tubercular mat-
ter, pus, and coagulable lymph, only as varieties of the same albumi-
nous matter that exists in the blood, and differing from each other rath-
er in mechanical condition, and consequent capability of organization
than in chemical composition. In this view, if the blood is  perfect,
the difference of the secretion will depend entirely on the degree of
increase in the vascular action,  but if the blood itself be imperfect or
diseased, then whatever be the degree of inflammation, perhaps  the
source maybe incapable of furnishing more than one or other form
of secretion, and this inability may even extend to the process of re-
paratory  nutrition.  I shall, however, forbear to explain  further
these opinions, for they must appear too hypothetical, with any sub-
stantiatory confirmation that I could give them in this place. 
172
PULMONARY PHTHISIS.
membrane,  had been neither preceded nor  ac-
companied by other marks of inflammation.
  I  think, then, that it is  of sufficient  impor-
tance to  distinguish  three  ways in  which  the
lungs may  become  infested  with  tubercular
matter.
  I. By the  tubercular  suppuration  of  the  in-
durations,  whether granular or diffused,  which
we  have  been induced  to  consider  chronic in-
flammations  of  the  pulmonary  tissue  ;   this
being the  natural termination of such inflamma-
tion.
  2. By tubercular suppurations of  other  inflam-
mations  of the pulmonary tissue ;. this effect be-
ing determined by the prevalence of  the  tuber-
cular diathesis.
   3. By secretion in  tissue bearing  no  marks of
other  lesion, the tubercular matter  being  here
apparently deposited through excess of tubercular
diathesis.
   It is  these  last, the  most constitutional,  elu-
sive, and obscure forms of the disease, that most
bid  defiance to our therapeutic means; and it is,
perhaps,  in great  measure,  in proportion  as
these combine  themselves with the other  form
that the disease becomes  rapidly  and certainly
fatal.   However, a predisposition to the  chronic
inflammations   is  scarcely  less  lethiferous,  in
giving  spring   to  its irremeable  course ;  and 
INEFFICACY OF MEDICINE.
173
what  adds  to  the  difficulty  of checking it is,
that it thus may  run,  as  it were, in  a  double
channel.
  It  would  be  air  interesting,  and, perhaps,
practically  instructive  task, to  trace  the mode
of  the  operation  of  the  reputed  occasional
causes of  pulmonary  consumption,  in opening
one  or  other of these ways for the entry into
the system  of this demon of  destruction.   It is
by  this  mode  of  inquiry alone,  that a  know-
ledge  of a truly rational system of prophylaxis
can be obtained;  and so,  if  cure will  ever be
within the  reach of  human  power,  it is to be
found only  by the study of the pathology,  and of
the  properties  of external agents with relation
to it.
  The systems, or general plans in which med-
icine   has  been  arranged,  have  been  always
framed on  dogmas  too exclusive, and observa-
tions too limited,  to comprehend the varied and
complicated  forms of disease.    Nor is it extra-
ordinary, when  the mightiness of  its extent is
considered, that few  have been  the minds  that
have grasped  more  than a  very  dimunitive
part;  few the   arms that  have attacked,  nay,
the eyes that have even  seen,  the many  heads
of  this  formidable  hydra.   Hastily  running to
some prominent  branch that  comes in our way,
we  seize it as a  prototype  of  the whole  tree, 
174           PHTHISIS PULMONALIS.
we clip at its  twigs, and blind  ourselves amongst
a foliage, that we see still
       ' Crescere per damnum, geminasque resumere vires;'
whilst  other   branches grow  untouched,  sup
ported  on the  trunk and root of all,  beyond  our
reach, and  even  beyond  our  sight.   Precipi-
tately  burying ourselves in the  unbrageous  in-
tricacies of the foliage,  we  neglect  the cautious
and comprehensive survey that would teach  us
that all are centered in  the  trunk, that all grow
from the roots.
   It is no partial observer that can form for us
a  philosophical and  comprehensive  system  of
medicine.    It  is not  the  mechanist;  for,  al-
though the body  is a machine, it is  much more.
It is not the chemist;  for although the body  is
a  labratory, it is much more.   It  is not  the
vitalist; for the body is not disobedient  to phy-
sical laws.   It is not  the  humoralist; for  the
solids have  also their  specific properties.    It  is
not  the solidist;  for  the fluids may  change of
themselves, or be changed  from  without.    It
is not the empyric;  for neither  bodies, nor even
the body, are always the same.   Nor is it  the
morbid anatomist; for his dissections  teach  him
little of causes, or of their  relations with  effects.
It is to him who is all,  and none of these ;  who
views the  animal body as  a machine of its own
kind,  obeying  physical  and  chemical  laws  in 
          SIGNS OF CRUDE TUBERCLES, &C       175

unexampled complication, and  further  disguised
by  a combination with  others  peculiar  to  liv-
ing structure ;  and who, duly regarding all these
powers, seeks, in a  change in their relations, the
causes and the cures of  disease:  it is  to  the
PHYSIOLOGICAL  PATHOLOGIST that   1  WOllld  look
for the imprevement  of  medicine:   and  to  the
combined exertions of many  such,  for  the  ulti-
mate achievement of  its greatest  possible  per-
fection.

          Section II.—Physical Signs.

   In the early  stage  of  phthisis, when the   ra-
tional  symptoms  are seldom  more  than those
of  catarrh,  or  other  pulmonary affections, such
as cough, occasional pain  of  chest, slight dysp
ncea, or, rather, tendency to  anhelation on exer-
tion, &c, the presence  of tubercles, or  of  the
indurations  that   precede   them,  will  produce
physical signs more  or less   appreciable,  accord-
ing  to  the situation  and extent of the diseased
parts.    Thus  the miliary   indulations,  even  in
considerable number,  may be scattered  through
the tissue of  the lung,  without  producing  any
distinct diminution  or change  in  the resonance
of  the  chest, or the sound of  respiration.   But
if (and it is the most common case,) the indu-
ration  or tubercular  degeneration be partial, or 
176           PHTHISIS  PULMONALIS.
affect one part much more than others, then the
sounds  of  respiration  and  percussion  will  be
distinctly modified,  and particular  signs will  be
produced in the diseased parts.   What these signs
are, will appear from the physical change  in the
organ.
   Where  the texture is  solidified by the  dis-
ease, there the elastic resonance  on percussion
must  be diminished, and  the sound of vesicular
respiration more or less obliterated; whilst those
of  bronchial  respiration,  and  vocal resonance,
are transmitted in  an increased degree.   Now,
in by far  the  majority  of cases, the principal
accumulation   of   granular indurations, and  of
tubercular  formation, takes place  at the apex of
the   lung,  which is immediately  under the cla-
vicle, and a small space below it.   If,  therefore,
this  bone,  when struck about its middle, yields
a dull sound,  or duller on one  side  than  on the
other, it is  exceedingly probable  that the lung
is in that  part  affected with  phthisical degene-
ration.   Great care  must  be  taken  to  strike
both  clavicles  at  the same  point for the  nat-
ural  resonance is  always  less  according  to  the
distance of the point struck  from the sternum.
It is  therefore generally expedient, to avoid error,
to have the  parts uncovered, and to tap  the two
clavicles  alternately  at   corresponding   points,
with the middle finger, or  the knuckle of the fore- 
SIGNS OF CRUDE TUBERCLES.        177
 finger*    When  the  disease  is  extensive,  this
 dullness  of  percussionary resonance extends  to
 the  infraclavian  region.    There  is  sometimes
 such  an  accumulation  of  tubercles  also  about
 the  root of  the lung as to cause a dull sound  on
 percussion betAveen the scapulae.

    The  stethoscopic signs are  more  delicate, but,
 perhaps, more equivocal  tests than those of  per-
 cussion.    When  the tubercular induration exists
 in a  degree  even  less  than  that  required   to
 change  the  percussionary  resonance,  the  re-
 spiratory   murmur  will  be   less  distinct  than
 usual;  or  it may  present somewhat of  a hissing
 or bronchial  character:   and a  diffused  broncho-
 phony,  or  unnatural  fremitus  on the  exercise
 of the voice will.be heard  in  the  corresponding
 points  of the chest.    It is when they are  more
 manifest  on  one  side  than  on the  other, that

  * The indications of percussion are sometimes deceptive, from the
 combination of a partial emphysema with the  tubercular or miliary in-
 duration. This dilated state of the air-cells in the vicinity of indura-
 ted vesicles and bronchi, which is explained in the view which I have
 given of the pathological causes of emphysema, may counterbalance all
 effect produced by the indurations.  This circumstance, which was
 first pointed out to me by my friend, Dr. Edwin Harrison, must hv
 crease the number, of causes, in which even the physical signs are neg-
 ative.  But by this emphysema, the respiratory sound in the part will
 be diminished to a degree inconsistent with the healthy resonance  on
 percussion. And from the proofs which Dr. Harrison has given me
of the perfectibility of percussion, as a test of the density of parts, I
do not despair of finding, by its means, a distinction between minuter
gradations of difference than have hitherto been discovered.
                        23 
178           PHTHISIS PULMONALIS.
these  signs  are  the  most certain, and existing
in points  where the respiratory murmur  is  na-
turally  quite vesicular and free from broncho-
phony ;   as  in  that   part  of   the  subclavian
region which  is  close  to  the head of  the  hu-
merus.    Towards  the  sternum,  in  the   inter-
scapular  region, and  in the  axilla, these  signs
indicate   the   probable   existence  of  tubercles,
only  when  there  is a distinct difference between
the  two sides of the chest;  for  the distribution
of the bronchi in  these parts is often  such  as
naturally  to produce similar phenomena.
   Such are the direct signs of tubercles, and  the
granular  indurations ;  but  usually  there  co-
exists  some  inflammation of  the bronchial mu-
cous membrane, which  adds to, and, perhaps,
somewhat obscures  these  signs,  by producing
different  catarrhal  rhonchi;  generally the sibi-
lant and the sub-mucous.   It is  to  this   con-
comitant  bronchitis  that  we must ascribe  the
expectoration of  the  early stage   of  consump-
tion.    It is  usually  scanty,  the  cough   being
dry;  but  sometimes it  is  pretty  abundant,  and
consisting of pituita, a  thin glary  liquid,  which
generally  indicates  numerous  miliary  granula-
tions.   Haemoptoe  is a frequent,  but not con-
stant  precursor of  phthisis,  and  it  seems,  in
some  cases,  to be  caused by  the  presence  of
miliary  indurations  and   tubercles   obstructing 
SIGNS OF TUBERCULAR CAVITIES.      179
 the circulation  in  the lung, and  exciting a vio-
 lent straining cough : and  in  others, in the form
 of  pulmonary apoplexy, to precede, and probably
 occasion, the developement of the tubercles them-
 selves.
   1 think, on  the  whole,  that in the  greater
 number of  instances, the physical signs  of this
 stage  of tubercles  are such as to give strong,
 but not  conclusive,  evidence,  of  an  incipient
 phthisis;  and cases, that  are perfectly free from
 them  may, accordingly,  be regarded so much
 the more favorably.    The  practitioner  should,
 however,  be  very  guarded in pronouncing  on
 the nature  of  the  disease  at   this period:  he
 should wait for the results of repeated examina-
 tions ;  when, if tubercles are really present, their
 signs  will generally become more evident daily,
 and at last of a nature quite unequivocal.
   It is when  the tubercles,  having passed  into
 the softened state,  become evacuated  through
 the bronchi, and leave  a cavity  communicating
 with them, that  the most characteristic  signs of
 phthisis  manifest themselves.   In the cavity thus
 formed, the  sound of the air passing  in  and out
 through   the liquid  that it still contains, is the
 first sign, and  constitutes what  is called gar-
gouillement, the gurgling  or cavernous  rhonchus.
 It may be considered as an  exaggeration of the
 mucous rhonchus,  and  it  so  nearly  resembles 
180          FHTH1SIS PULMONALIS.
that produced in the trachea and large  bronchial
ramifications,  that  the symptom  must  be  con-
sidered  doubtful,  when  heard  only  near  the
sternum, in the  axilla, or  in  the upper part  of
the interscapular region;  as it may here be  pro-
duced in these  air-vessels.    The rhonchus cav-
ernosus will  vary a good  deal,  according to the
form  and size of  the cavity,  and the quantity
and spissitude of  its  liquid contents.     This  va-
riety may be  easily  conceived  without descrip-
tion,  on a consideration  of the  physical  nature
of  the phenomenon.    When  this   cavernous
rhonchus  is heard  over  a  considerable  space,
there  are probably several  cavities  communi-
cating  with  each  other, and  all  containing  a
considerable quantity of  liquid.    When the sub-
ject  is thin,  and  the  cavity superficial, percus-
sion in its vicinity sometimes produces a  sound
something like that of  a  cracked cup or  jar,
struck with the knuckle.    This is only a  modi-
fication  of   the  gurgling  rendered   somewhat
 metallic  by the tinkling echo   of the neighbor-
 ing bronchial tubes.*
    As the liquid contents  of  a  cavity  are evac-
 uated by  expectoration,  the  cavernous  rhonchus
 passes into what is called  the  cavernous respira-

  * This sound may frequently be  produced in the dead body by per-
 cussion under the clavicles; but it does not here always indicate a
 cavity, as its seat isj^usually in the trachea and larger bronchi. 
       SIGNS--CAVERNOUS  RESPIRATION, &C.    181

Hon.   The sound of this is  very characteristic,
and  represents to the  mind  exactly the passage
of air in  a  cavity.    It  has  not the  diffused,
slightly  crepitant   sound  of vesicular  respira-
tion,  is more sonorous  and  circumscribed than
tracheal,  and in different examples may  be very
perfectly  imitated by  blowing into shells of dif-
ferent  sizes.  As, cavernous respiration  differs
 according to the size of  the cavity in which it
is produced, so the variety of sound  may be
taken as a means of judging of its size;  the rule
generally  being  that the  deeper and  hollower
 the sound of cavernous  respiration,  the  larger is
 the cavity.
   There  are, however, other sources of variety
 which it is important  to  notice,    Thus  the
 sound may  be  like the  blowing of  a  bellows,or
 contracted almost to a whistle,  according  as  the
 communication  with the  bronchi is free or con-
 stricted.    If, with a contracted bronchial orifice,
 the cavity be of a  large size, particularly if lined
 with a rigid false membrane, the respiration will
 become amphoric, or like the sound  produced on
 blowing into a phial; partaking  of  the character
 and explanation of  that  before described as oc-
 curring in pneumothorax.
    The thickness of the  parietes of  the  cavity
 do not, so  much as might  be  expected,  modify
 the  sound  of  cavernous  respiration.    It  may
• 
182          PHTHISIS PULMONALIS.
sometimes  he heard  distinctly  through  healthy
tissue  more than half an  inch  in  thickness, and
seems  then more distant.   When  the cavity  is
more  immediately  contiguous  to the parietes of
the  chest, the sound  appears so  near,  that  the
auditory impression is  like that  of blowing into
the ear itself.   Sometimes it  comes only in suc-
cessive puffs, apparently interrupted by  some-
thing  moveable suddenly interposed ;  and this,
according to  Laennec,  occurs  when a very  thin
stratum of pulmonary tissue,  still  spongy,  forms
the parietes of the cavity immediately opposed,
but not adhering, to the  pleura costalis.
   The cough, which  may be  considered an ex-
aggeration  of  respiration,  gives  the  same  va-
rieties   of  character as  this  latter,  and  some-
times   may  produce the  signs,  when  ordinary
respiration does not  effect  the entrance  of air
into  the cavern.   When the cavern has  only
recently communicated   with  the   bronchi,  or
when it is again nearly filled with  sputa, the air
enters  it and produces the  cavernous rhonchus,
only in  the  fuller inspiration that accompanies
cough.   In  other cases  this respiratory  move-
ment often renders  the  signs of   the  existence
of a cavern,  more certain  and  unequivocal.   In
a cavern that is vast  in size, and  pretty simple  in
form, and having only a  narrow orifice communi-
cating  with the  bronchi, the respiration  may be 
          SIGNS--CAVERNOUS RESPIRATION.      183

insufficient to have  such free  access to it as
would  give   the  sign of  amphoric  resonance;
but the cough would  not fail to make its existence
known,  by  the  tinkling  echo,   (tinnitus   me-
tallicus,) that, as in pneumothorax, would  accom-
pany it.
   Another most distinct  and certain  sign of  a
cavity  in the lungs  is  furnished  by  the voice.
We shall best  understand this by  referring to
what we have formerly said on  the  production
of the  voice.   Now that  reverberation which
exists   in  the  trachea  and bronchial tubes of
larger   size,  we  then  observed,  is  so  broken
down and destroyed in the  finer complication of
the cellular parenchyma,  that either the voice  is
not propagated  at all through it, or  only  a  dull
diffuse fremitus  is heard.   But if a cavity  be
formed in this parenchyma,  and  a prolongation
of the bronchial sounding board thus  produced,
the voice will then be heard  in  the correspond-
ing part of the chest, in a tone  and intensity
more or less perfect,  according  as  the cavity is
adapted to receive and transmit  the  vocal reson-
ance from the bronchi.
   When the cavity is of moderate size and  reg-
ular form, and in free communication with  a large
bronchial tube, and either it  is very near the  sur-
face of the luug in contact with the thoracic pa-
rieties, or the intervening tissue is rendered a good 
184             PHTHISIS  PULMONALIS.
 conductor  by  condensation  the  voice  is  trans-
 mitted  in  the  most  perfect  and  unmodified
 manner, and seems to be  produced  in that  spot
 of the chest, seemingly  distinct  from   the oral
 voice.   This is perfect  pectoriloquy.   If   heard
 with the stethoscope, (which for this  purpose  is
 best adapted with  the stopper in,) the  sound  of
 the voice seems to come through  the  tube, and
 enters the observer's ear louder than that  which
 coming  from  the  patient's  mouth,  strikes the
 other ear; but the verbal  utterance  is never  so
 distinct.*  When heard, to the degree  just de-
 scribed,  in  parts   where there  is  little  or  no
 resonance of  the voice,  it  proves (equally  with
 cavernous respiration)  beyond doubt the exis-
 tence of  a   cavern   communicating  with  the
 bronchi.
   It is less  certain  when  occurring near the
 sternum, in the  axillae,  and  between the  sca-
 pulae; but if  the resonance seems defined, passes
 up the  tube, and is  heard to this  degree  on  one
 side only, there can be little doubt  even in  these
 cases;  for  the  natural bronchial resonance  of
 these  parts scarcely  ever  passes the   tube,  is

  * How often does the voice-thus heard make known a melancholy
truth, the speaker never dreamed of.  More than once has  it occurred
to me that the very words, which in that delusive confidence with
which this malady enshrouds its vietims, ridiculed my examination of
the chest, roundly saying, that nothing ailed them there, have belied
their meaning, and coming from the breast, have told a far different
tale! 
               SIGNS--PECTORILOQUY.          ] 85

generally diffused, or  can  be traced  in  a line
along the course of the bronchus,  and  is  rarely
very unequal on the  two  sides.   That part of
the acromian region in  the angle formed  by the
junction of the clavicle  and  coracoid  process of
the scapula, may  admit of  examination;  for if
the  stethoscope  is held  nearly  perpendicularly
on this spot, it  is out of reach of  the  laryngo-
phony heard  in  other parts of this  region.  It
may be held in mind that  natural  bronchophony
exists most in young or  thin subjects with a sharp
voice, and is generally  slight in those  who are
stout made, and have deep voices;  but the  same
circumstances are also  favorable to  the  distinct
developement of pectoriloquy.
   Imperfect   pectoriloquy   is  that  kind  which
does not seem  to enter  the stethoscope, but only
to  resound  at  the  end.    This  standard  of
imperfection  will not,  however,  always  denote
the  uncertainty  of  the indication;  for  what
is,   according   to   this  definition,   imperfect
pectoriloquy,   if   it   occur   where   it  can-
not  be  confounded  with  natural    resonance,
particularly  if confined to one  side,  may  be
deemed a pretty  certain indication  of  the ex-
istence of a  cavity.    It  cannot be  trusted  to
when heard in  the internal half of  the  infracla-
vian and  mammary regions,  the axillae and  in^
terscapular spaces.  Neither is it  always possj-
                 24 
186           PHTHISIS PULMONAXI9.
ble to make this  distinction  in  pectoriloquy, al-
though  in the extreme  degrees it is  sufficiently
apparent; for sometimes it  seems  only  partially
to enter the  tube, some  words  being loud and
near, and  others in i;he same  sentence  more
distant: a very bass  voice  scarcely ever seems
to traverse the tube  completely.
   The  smallness  of  the size of a  cavity,  its im-
perfect  communication  with the  bronchi, or its
distance from the surface  may render  pectorilo-
quy of  the imperfect or  doubtful kind;  hence
these conditions  being  changed,  (as  often  hap
pens in  the course of the disease) the  pectorilo-
quy will again become perfect,  and vice versa,
So likewise  doubtful signs  of a cavity  may be
taken as certain, if they arise suddenly in  a  spot
where  such  had  never  before been observed;
particularly if  this  happen after coughing and
expectoration.
   The  vocal resonance  is sometimes modified
in pectoriloquy.   This not unfrequently  happens
when there is a little liquid in the cavity,  which
being occasionally raised in  bubbles, interrupts
the sound and gives  it  somewhat  of a saltatory
and   slightly  tinkling  character.   The  vocal
resonance  is   also  sometimes  alternated  with
puffs  of   cavernous respiration;   for   it  may
happen, if the communication with  the  bronchi
is  small,  that a little increased force in the 
BIGNS--PECTORILOQUY.
187
passage of the air through the cavern, may  mo-
mentarily prevent the  transmission of the  vocal
vibrations into  it.   Cavities  of   irregular  form,
with partial septa and soft loose parieties, do  not
produce so  perfect  a   pectoriloquy as  those of
simple  form  and  smoothly lined.   Those  of
moderate size perhaps are the  best  adapted to
produce the symptom;  but  Laennec relates an
example where a cavity not larger  than a  plum
stone produced a distinct pectoriloquy.    When
the   cavity   is  very  large,  the  communication
with the bronchi is often not  sufficient  to  trans-
mit the full vibrations of the voice to the  large
volume of air in the  cavity:  in that  case,  a
tinkling echo accompanies the  voice, as in a pneu-
mothorax; and this will be  more metallic and
resounding, in proportion as the  cavity  is  ample,
and its parieties smooth and  tense.   Percussion,
as well as the history  of  the case,  will  gener-
ally suffice to distinguish this case  from  pneu-
mothorax ;  the  sound  is never so clear, and
when  mediate percussion is used, it may  often
detect irregularities from the varied density of
the subjacent parts, which do  not  appear in the
elastic drum-like sound of pneumothorax.
   The pectoriloquy, produced in a string or row
of  small  excavations,  frequently  presents much
of  the character of bronchophony;  the tone of
the  voice  being  rendered   more  sharp,  and 
183           PHTHISIS PULMONALtS.
somewhat cracked.  It may  be sometimes diffi-
cult to distinguish between this, and bronchopho-
ny  produced  by «a   partial   inflammation:  the
history  may  generally   determine whether an
ordinary pneumonia has taken  place ;  but  if an
inflammation of  the inter-current kind,  has been
engrafted  on a chronic catarrh, or other affection
of the lungs, the symptoms  of  the latter  may
have masked its progress, and it  may  thus have
escaped  observation.    However, in  this  case
there is generally some indication,  either  in the
expectoration,   the   remains  or  return of the
crepitant  rhonchus,   or  the cessation  of the
bronchophony,   that  will   be sufficient to dis-
tinguish  the inflammation.    An  inter-current
circumscribed inflammation  frequently,  occurs  in
lungs affected with tubercles  in different stages ;
and in a greater extent   is  not uncommonly the
immediate cause of  death.    The checking of
such inflammation at  their commencement  is a
principal  object  in  the   treatment of  phthisis;
for   besides  the  immediately  fatal  effect that
they sometimes  determine,  they  certainly  tend
to  accelerate  the  progress   of   the  tubercular
disease.  Hence the expediency  of   frequently
using  the   stethoscope   in  phthisical  cases,  to
insure  the  detection  of  the  inflammation  at  a
 time when  a few  leeches  or a  counter-irritant
 may be sufficient to  check  it,  without  wasting 
SIGNS OF PERCUSSION.
189
by  depletions  the  little  pittance  of  strength,
that might still  hold  on existence a  short  period
longer.   I formerly  mentioned,  when  speaking
of chronic catarrh, that the  signs  of  an exten-
sive dilatation of the bronchi resemble  those  of
a  tubercular cavity in phthisis.   Where  a  bron-
chus   is  dilated  at  a  point  to the  size  of  a
hazel nut, or even of a  plum  stone,  it  is plain
that  it  is physically  capable  of  producing all
the signs of  a tubercular cavity  of  the  same
size; that is, a coarse gurgling  rhonchus, if  it
contain   liquid;  and cavernous  respiration and
pectoriloquy, if  it be  empty.  The  case  of such
a dilatation is not  common,  but  it  does  occur;
and as the  other symptoms  resemble  those  of
phthisis,  it  may  be mistaken  for  this  disease.
In time,  however a  distinction may  be  made
by the signs  of progress  which  the  tubercular
disease generally presents;  the cavity  becomes
more  extended,  and  causes  signs  of   hollow
more  remarkable   and extensive  than dilated
bronchi   could   produce ;  and not  unfrequent-
ly cavities are formed in  other  places.    Dilated
bronchi rarely effect  the sonoriety  of  the  chest
on percussion, to the degree  that the  engorge-
ment and infiltration  about  the tuberbular  cav-
ities do; nor can they produce  the  other  phys-
ical signs of large cavities.   The  most  common
situations  of dilated  bronchi  are,  in the  sea- 
190           PULMONARY  PHTHISIS.
pular, mammary, and  lateral regions:  the  sub-
clavian and acromian are the more usual seats  of
phthisical signs.
   There  is   generally  some  condensation  of
tissue  in the  neighborhood  of tubercular  cav-
ities;  owing  either  to  other  tubercles  in  a
crude state, or to  the  effect of  chronic  inflam-
mation.    Hence   it  seldom  happens  that the
chest recovers its  natural  resonance  on  percus-
sion  on  the  corresponding points,  even  after
the contents of a  cavity  have  been  evacuated.
When  the cavity  is  large and  superficial, the
chest may  sound well in some places over  it, but
its  resonance  is irregular, and less elastic, and
if  the  other side is still in a healthy state, a re-
markable  but indescribable  difference may  be
both heard and felt by the percussor.
   I have mentioned that  fistulous cavities  have
a tendency to increase in size  ;  and  this may be
effected either by  the  softening  and evacuation
of  neighboring tubercles, or  by  simple  ulcera-
tion of  the  adjoining  tissue.    Thus  the  symp
toms  will,  by  the   extension  of  the  disease,
become  more  and  more  evident,  in  too many
cases, soon put the diagnosis beyond a vainly-ho-
ping doubt.
   If the cavity be near the surface of the  lung,
and there be no adhesion  of   the   pleura  at the
spot, there is a  chance of  a perforation  of the 
          PERFORATION OF THE, PLEURA.       191

pleura  taking   place, and  producing-  a  pneu-
mothorax.    This  accident  is  commonly  mani-
fested by the  sudden occurrence of the  general
signs  of acute  pleurisy,  caused by  the  irrita-
ting effect  of  the  tubercular  matter  and air
upon  the   pleura.   I  have  already  described
pneumothorax   produced  in this  manner; and
refer to what  1  have  there said  for  an ac-
count of the physical  signs.   They  are   often
very remarkable.   1 have heard, in a case of this
kind, an amphoric  respiration, so loud that  it
could be distinctly perceived without applying the
ear or the stethoscope to the chest, and,  I  think,
must have  attracted my  observation, if  I had
known nothing of auscultation.
   The   evacuation  of   a  softened tubercle into
the  pleura,   without   communication with the
bronchi, is of more  rare  occurrence.  It gener-
ally  produces  a  pleurisy, which  is remarkable
for the  suddenness  of its  attack.  The  effusion
is  sometimes  accompanied  with  a   disengage-
ment of gas in the pleura.   If  the phthisical
disease is not far advanced, the effusion  may be
absorbed,  and  adhesion  formed between the
pleura;  but the shock of acute  attack  is   often
too great for the wasted tottering frame  to  bear
and the  patient falls under it.
   The  expectoration,  in the  latter  stage   of
phthisis, consists of  softened  tubercles, and the 
 192           PULMONARY PHTHISIS.

 sercretion of  the tubercular  cavities,  together
 with a secretion from the bronchi, more  or  less
 copious   as  the  concomitant catarrh  is  severe.
 The expectoration of  tubercular matter, when
 it can be  clearly proved,  may  be considered a
 decisive evidence of  the existence of  phthisis;
 but  it does not often present itself in the sputa in
 this  unequivocal form;  and  it is  often a  matter
 of much difficulty to distinguish   between  it  and
 certain  secretions of  the  diseased  bronchi,  as
 well  as  of  the tonsils.   Sometimes  little por-
 tions of  the  pulmonary  tissue  are  brought  up
 with the curdy and purulent matter  of cavities,
 and  then the case ceases  to be  doubtful.    The
 pus and muco-purulent  matter,  sometimes tinged
 with blood, proceed  more from the  inflamed
 bronchi than from the  cavities  themselves.   A
 grumous  liquid,  of  a  grey or  brownish  color,
 is  occasionally seen in the sputa;  and  this  seems
 to proceed from the inflamed parieties  of the
 cavities; and  when  they become lined  with a
 fibro-cartilaginous membrane, this liquid becomes
 more serous.
   The formation of this membrane is the  effort
 of nature towards the cure of phthisis ; and the
 researches of  Laennec  have given  satisfactory
 proofs that this  effort  is  not always  unsuccess-
ful.   The  process is simple.   The vessels  of the
 cavity throw out a lymph ;  this  becomes  conr 
            CICATRIZATION OF CAVITIES,        193

verted   into   a  fibro-cartilaginous   membrane*
which gradually increases in thickness  until it fills
the   cavity.     The   mass   of  fibro-cartilage
thus formed,  in time  becomes smaller and more
dense, drawing in  the  pulmonary  tissue,   and
at length  forms little more than a kind of cica-
trix, around which the  puckerings  of  the   tex-
ure  are  very  remarkable.   The  signs of such
change are the  diminution  and gradual  cessation
of the symptoms  of a cavity ;  and if the cavity
was  large,  its cicatrization will produce some con-
traction of  the chest on  that side.
   Many, very many, are the  causes that prevent
the success of  this  process  of  nature.    Too
often, if  the lungs are  not  already  too extei>
sively  pervaded  by  tubercles  to leave  enough
pulmonary   tissue  after their   evacuation   and
the cicatrization of the  cavities,  to support life,
the constitutional cause engenders  more;  so  that,
while  some   cavities   are  healing,  other  tu-
bercles are  generated, which  may be  fatal either
by  their  present  abridgement  of  the  pulmo-
nary  function,  or by the   exhaustion produced
by  the ulcers  entailed  by  their  suppuration.
Add the number  of contingent  causes that  may
prove fatal before  this curatite effort can  take
effect ;   haemoptysis,  inflammation,  suffocation
by  sudden  bursting  of  avemica, perforation of
the  pleura,  bodily  exhaustion,   constitutional
                      25 
194
MELANOSIS.
 complication—all,  and  many  others  coming  in
 the  deadly train—and  we  shall see  how dimi-
 nutive is the chance of recovery from phthisis.
    The case that  should afford us  hope  is that
 on which the  pulmonary organic disease seems
 to be  limited,  the  function  little  embarrassed,
 the  body  not  much reduced,  and neither  ha-
 rassed  by  a complication  of  complaints, nor
 tainted by hereditary  diathesis.    Even  others
 of worse  aspect may  turn out favorably;  ex-
 perience has proved it;  and  although in them our
 anticipations  cannot  be  brightened  by  hope,
 neither may they totally be  darkened by despair.
 And thus,  if  the  study of physical  signs shall
 often appal us by discovering the dreadful enemy
 that holds an object of  our  care, it has also estab-
 lished the consolatoy fact, that its grasp is not uni-
 versally relentless.

    There is little need  that I  should detain  the
  reader by any notice of some  organic   diseases
►  of  the lungs,  of rare occurrence  and obscure
 nature; for whatever  is  known  of them  will
  suggest to him, now accustomed  to the  acous-
  tics  of  the  chest,  the physical signs  that  are
 likely to accompany them.    Thus  melanosis,  as
  it runs a course somewhat analogous  to that
  of tubercles, so it  will partake of their physi-
  cal  signs.*   In  their  solid state,  melanose  tu-
    * Melanose matter seems to differ from that of tubercles, principally
  in being composed of a modification of the coloring matter of the blood, 
HYDATIDS.
195
 berclcs may produce  dullness  on percussion  and

 bronchophony;   and after softening and  evacua-
 tion, the  usual signs  of a cavern.   The  presence

 of the melanosed matter in the sputa can alone

 distingnish the case from one of  ordinary tuber-
 cular  phthisis.

    The same rule  may be  applied  to  cretaceous
formations,  scirrhous  and  osseous   degenerations,

 according to the physical state which they  hold in
 the lung.

    Hydatids in the tissue of the lung may likewise

 produce bronchophony, and, when evacuated, leave
 a cavity,  with its usual signs.    The possibility of

 distinguishing any sounds produced by the motions

 of the animals  themselves,  we must consider  at
 least  as very apocryphal.

 as an altered albumen constitutes the latter.  The change of the color-
 ing matter is, in some  instances, very great, and proceeds partly from
 the presence of a black insoluble matter.  Whether this resembles in
 nature the carbonaceous matter commonly found in the lungs, or is al-
 lied to the black coloring matter, pigmentum nigrum, abundant in the
 negro,  and scantily produced in the parts of the white, has not been
 clearly determined.  Let me remark of the black pulmonary matter,
 that whether it be derived, as seems probable, from the sooty particles
 that constantly float in the air where combustion is going on, as sug-
 gested formerly by Dr. Pearson, or be it the product of the body itself,
 it is not extraordinary that the lungs should be its peculiar seat; for it
 is perfectly insoluble in any animal fluid; and if at all arrested in the
 circulation, it must be in the fine vascular filtre of  the lungs, where it
 will remain, and accumulate. Like the carbonaceous matter of tattooed
 skins, and the insoluble oxide of silver in those who become colored
 by the internal use of lunar caustic, it remains, not because there are
 no textural absorption and  reparation, (an opinion which, with his
 sagacity, I am surprised that Majendie should have maintained,) but
 because that absorption can act only on matter in a state of  solution. 
EXPLANATION  OF  THE PLATES.
     Plate  I.—Construction  of the Stethoscope.

   I  have already exposed the general principles of the con-
struction of the  stethoscope;  this plate will enable us  to
come to particulars.   We have said that the office of this in-
strument is triple:  1. As a solid conductor, to convey sounds
along its fibres ;   2,  As a tube to contain  a column of air,
through which sounds are conducted ; 3,  As a perforated
cylinder hollowed at one end, to concentrate, in the central
canal, sounds produced over some extent of surface.  Now
the perfection of  a stethoscope will depend on its being  so
constructed as tq fulfil best all three parts of its office.
   First, as a solid conductor.   The wood of which it is com-
posed should be of straight and rigid longitudinal fibres un-
interrupted by knots or inequalities.  The  ends of these in.
struments should be so formed as to bring the ends  of these
fibres in close contact with the parietes of the chest, from
which the sounds come, and with the ear to which they are,
transmitted.
   The central canal, which prepares the instrument for  the
second part of its office, does not materially impair it as a
solid conductor.   This canal should be perfectly straight,
with walls as even and  smooth as they can be made, so as
to offer no obstacle to the parallel vibrations, and to reflect
onwards the oblique ones.   It is  of  essential importance  in
tjsing the instrument, that  it be so applied to the chest and
ear,  that  this central canal shall have no communication
with the  external air, otherwise the vibrations would be lost
outwardly instead of^entering the auditory meatus.   The. 
CONSTRUCTION OF THE  STETHOSCOPE.     197
end applied to the  chest should, therefore, be made slightly
concave; the  better to  secure  its exact and  perpendicular
apposition to  it.  The form of the other end must be adapted
to the ear of  the auscultator.    If  his  ear be flat,  it may
be made flat or very slightly concave ; but if the tragus and
antitragus are prominent,  it  must be made concave in a
proportionate degree, otherwise they may be pushed in, and
close the meatus.    The  end  fits  better to  most ears, by
being enlarged a few lines in  diameter by a horn or  ivory
ferule, or ring, glued round it; or a perforated cap of ivory
or horn, as A in fig. 4, may be made to fit closely  on the
end CC.; and that this may impede the transmission of sound
from the wood as little as possible,  it must be made very
thin, and lined on the inside with soft leather, and fitting so
close as to leave no interstices.   I should feel no  hesitation
in preferring the ring, D, fig. 3, if it were not that this cap
may be made otherwise useful as a percussion plate, in the
manner described at p. 22.   This, and the circumstance that
the cap may  be removed in auscultating the  sound of  the
heart,  &c. where the solid fibres  are  the best conducting
media, may therefore give  the cap the advantage ; but both
of its uses render it absolutely necessary that the perforated
lamina covering the end should be very thin.  The cap or
ring impedes, rather than  assists, the adaptation of the in-
strument to  the ears of those  whose  temporal  zygoma is
very prominent;  and, in other cases,  the breadth and con-
cavity  of the ear  end of the  stethoscope  must be propor-
tioned to the size and  form of the ear  of each auscultator.
He  should  not be hasty in choosing  his instrument, but
when  he has found one exactly to fit his ear, he  will obtain
a more-perfect tact by confining himself to it, than by using
a variety.
   We have  lastly to consider  the excavation, which enables
the instrument to concentrate  diffused sounds ; and, to illus-
trate the superior advantage of the conically shaped excava- 
198        DESCRIPTION  OF  THE PLATES.

tion, I have given, in figs.  3 and 4, sectional diagrams, re-
presenting the manner in which the direct vibrations are re-
flected.    In the parabolic cavity, fig.  4, they are reflected
back on the surface from which they proceeded, and cannot
reach the central canal, but by  repeated reflections, which
must tend to impair  their  distinctness and  intensity,  inas-
much as no surface is a  perfect reflector.    The sides of a
conical cavity,  fig. 3, subtending an angle of about 25°, re-
flect all the direct vibrations, which are the  most important
ones, immediately into the central canal,  so that they reach
the ear little impaired by reflection.  If the angle be greater,
it will partake  more  of  the objectionable property of the
parabolic curve, as may be judged by a  reference  to the
figures.
  The  perforated stopper or plug, E F. fig. 1, by  fitting
exactly into the cavity G, reconverts the instrument into the
perforated cylinder.   It ought to fill  the cavity completely,
and to hold tightly in it by the  flute joint  H  H, and I  I.
To render the instrument  more  portable, and to fascilitate
its  application  to some  parts of the chest,  it  is made to
divide in the middle at K K, with a conical joint, so exactly
corresponding with thaf at  the  end  of  the  instrument,
that the plug E F will equally well  fit the cavity  K K L-
The excavated ends are strengthened by small ivory or horn
ferules, K K, without which they would be  apt  to  split.
The wood should be well dried before  these  ferules are
glued on, otherwise they are liable to become loose-  The
whole internal surface of the instrument should  be as even
and smooth as  possible, in order to  perfect its  reflective
powers.   Fig.  1, represents a longitudinal section of the in-
strument in all its proportions, one half the real size.
  Such I believe to be the best construction to fit the ste-
thoscope  for its several  purposes, others   may consider
portability or elegance of  greater  importance  than such
minute   attention  to  acoustics as I  have held  necessary. 
        CONSTRUCTION  OF  THE  STETHOSCOPE.     199

Fashion and fancy have,  accordingly, been at work in de-
vising stethoscopes of various forms, more or less paradoxi-
cal.   The medical  amateur may meet  with them  in the
shops, and may amuse himself in trying to find out the prin-
ciples of the peculiarity of their construction.

           Fig. 1.—Longitudinal Section.

     AA.  Stethoscope,
     BBB. Its central canal.
     C. Its ear end.
     D. Horn or ivory ring,
     EF.  Its stopper.
     G. Excavated end.
     HH. Flute joint, corresponding with I I.
     KK, KK. Horn or ivory ferules.
     LLL. Middle division.

                        Fig. 2;

  A horn or ivory ear piece, or cap, fitting on the end of the
stethoscope,  CC.  BB. inner surface,  covered with soft
leather, and  made convex, exactly to correspond  with  the
concavity, DD. 
TABULAR  VIEW
THORACIC REGIONS, THEIR NATURAL RESONANCE ON PERCUSSION,  &c.
Regions.	Num-
Plate II.	ber.
I. Clavicular	2
(subclavian of Laennec.)	
2. Infraclavian	2
(anterior	
superior of Laennec.)	
3. Mammary.	2
4. Infra-mam-	2
mary.	
5. Superior sternal.	1
6. Middle	1
sternal.	
7. Inferior	1
sternal.	
Situation.
Clavicles.
  Between the clavi-
cles and the 4th ribs
   Between  the 4th
and 8th ribs.
 , Between  the  8th
ribs and the margin of
the cartilages of the
false ribs.
  Upper part  of the
sternum.
  Middle part  of the
sternum
  Lower part  of the
               TABLE  I.
Natural Sound on  Percus- Interior Corresponding Signs  commonly produced   there
  Very clear towards the ster-
num ; clear in the middle ; dull
close to the humerus.
  Very clear.
  Very clear;  particularly by
mediate percussion.  In women
a clear sound can be obtained
through the mammae only by
mediate percussion.
  Dull on the right side : on the
left irregularly dull, or unnatu-
rally resonant.
Very clear.

Very clear.
                      In the upper part clear ;  ra-
sternum and ensiform ther less so in fat persons. Be
cartilage.            low,   sometimes  more  dull
                    sometimes tympanitic.
Parts,
Apices of the lungs.
  Superior lobes  of the
lungs; large bronchi near
the sternum.
  Middle lobes of the lungs;
large bronchi in the upper
part near the sternum;  the
heart, generally covered by
the lungs, in the lower part
of the left region.
  The liver on the right,
and the stomach on the left
side, covered  only  on the
upper part by the thin mar-
gin of the anterior inferior
lobes of the lungs.
  Large bronchi.
  Margins  of the middle
lobes of the lungs.
  Above, margins of  the
lungs; below, the  heart
by disease.
  Dulness on percussion inphthisis:
generally most on one side.

  Irregular  dulness on  percussion.
diffuse bronchophony, impaired re-
spiration, and afterwards cavernou>
rhonchus and pectoriloquy, in phthi-
sis.  Various rhonchi in catarrhs.
  Rhonchi in catarrh; more nuelv
phthisical symptoms.   On  the let!
side, dulness on percussion in  peri-
carditis  and enlargement  of  the
heart; increased irripulse in  hyper-
trophy, and increased sound of'pulsa-
tion in dilatation of the heaft; some-
times extending to the  right,  with
or without murmur follis or lima.
   Crepitant  rhonchus in  incipient
pneumonia.   Extinction of respira-
tion in advancing pleurisy.  Dry cre-
pitation  in interlobular emphysema.
Bronchal rhonchi.

Catarrhial rhonchi,
                           Signs,of diseases of the right side
                        . of the heart;  dulness on percussion
liver, and  sometimes  the in pericarditis, accumulation of fat.
stomach.                'hypertrophy, &c. 
 
 
8 Regions.
 Plate  II.
8.  Auxiliary.


9.  Lateral.
10. Inferior
  lateral.
11. Acromial.
12. Scapular.
13.  Interscapu
  lar.
14. Inferior
  dorsal.
Num-|
BER.
Situation.
Natural  sound on Percus-
            sion.
2  I   In the axillae above
   I the 4th ribs.

2  I   Between the 4th and
   8th ribs at the sides
  Below the 8th ribs
at the sides.
  Between the clavi
cles and upper margin
of the scapulae.
  The scapulae,  and
the muscular ridge be-
low them.
  Between the inner
margin of-the scapulae
  From  the  inferior
angle of the  scapulae
and border of the ser-
rati, below them to the
level of the 12th  ver
tebra.
Very clear.


Very clear.
  The same as the infra-mam-
mary.
Interior  Corresponding
         Parts.
  Dull by direct percussion. A
tolerably clear sound may be
elicited by mediate percussion,
particularly near the clavicles.

  The pectoral resonance can
be  elicited  from this region j
only by mediate percussion.   |
  Pretty clear by mediate per-
cussion, or when the arms are
crossed,  and  the  head bowed'
forwards.  The spinous pro-1
cesses  of the vertebrae sound
well.

  Clear in  the upper portion,
by striking on the angles of the
ribs, or by mediate percussion.
Below, often dull on the  right,
and unnaturally resonant on
the left side.
  Upper part of the lateral
lobes of the lungs.

  Middle of the lateral lobes
of the lungs.
  Margin of  the  lateral
lobes of the lungs; the liver
on the  right side ; the sto-
mach and spleen on the left.
  Superior lobes  of  the
lung, and large bronchi.
Signs commonly produced  there
            ey disease.
  Middle posterior lobes of
the lungs.

The roots, and inner parts
of the posterior lobes ol the
lungs.
  Base of the lungs.   The
liver  encroaches  on  the
right, and the  stomacli on.1
the left side.
  Dullness on percussion cavernous
rhonchus, pectoriloquy, &c. in phthi-
sis.  Catarrhal rhonchi.
  Dulness on percussion in advanced
pleurisy;  and on the right side, from
enlarged liver.   iEgophony in ad-
vancing pleurisy: crepitant rhonchus
and  bronchophony  in  advancing
pneumonia.
  Crepitant rhonchus  in  incipient
pneumonia.  Extinction of respira-
tion in pleurisy.

  Dulness on percussion  in exten-
sive tubercular accumulation ; cav-
ernous rhonchus and respiration, and
pectoriloquy in phthisis.  Catarrhal
rhonchi.
  Catarrhal  signs.  iEgophony m
pleurisy.  Bronceophony m pneumo-
nia.
  Catarrhal signs.  In the upper por-
tion the sound of respiration is never
destroyed in effusions into the pleura.
The lower portion is sometimes the
 eat of aegophony in pleurisy, and of
rhonchus  crepitans,  and bioncho-
phony in advancing pneumonia.
  Crepitant rhonchus and broncho-
phony in  incipient pneumonia and
(Edema: aegophony in pleurisy, and
dulness on percussion in both. 
202
DESCRIPTION OF THE PLATES.
               TABLE  I— Plate II.

  In this tabular view of the regions I have added a gen-
eral summary of  the  symptoms of which they severally
are the most common seats - and I have  done  this more
with a view to assist the memory in a general way, than as
giving any exact description.   Assisted by Plate II, it gives
a ready view of the situations of the regions and the organs
within the chest, and a summary of the signs produced  by
disease.

                       "•►»©©©♦<**

  Since  my first sheets were printed, the  work just pub-
lished by M. Piorry, ' De la Percussion Mediate,1 has been
put into my hands by my friend Dr. Clark, to whom I am
likewise indebted for many valuable hints  on  the  arrange-
ment of this work.  The perusal of M. Piorry's  book, as
well as some communications from my  friend Dr. Edwin
Harrison, who has with much  success applied his acute
mind to the study of percussion, h ave convinced me of ad-
vantages  in mediate percussion, greater than, from my then
experience, I had expressed at the  beginning of this work.
By percussion on the pleximeter, closely applied to the part
the pulmonary'resonance can be elicited from parts which
yield no sound by direct percussion.  Thus, in the scapular
and acromial regions  may a  sound be  obtained, which,
although not equal to that given by other  parts with thin-
ner parieties, is obviously hollow,  and proceeds  from the
deep-seated aerial contents, and would, undoubtedly, be ren-
dered obtuse by a substitution of solid or liquid in the  inte-
rior.  I must remark,  however, that signs thus obtained
must  not be  trusted  equally  with those of ether parts •
or, besides that the  difference  is less marked,  the sound 
DESCRIPTION OF THE PLATES.           203
may proceed, where the parieties  are so  thick, not only
from the part under the point struck, but from those in its
neighborhood likewise.
  Moreover,  M. Piorry asserts that mediate percussion may
distinguish differences in density,  of a deep-seated,  from
that of a superficial organ.   Thus, by holding the plexime-
ter  lightly, and tapping gently on it, a very  slight pleuritic
effusion may be detected by  the dulness of the sound ;
and by using some pressure and force in  percussion,  the
resonance of the spongy lung beyond can  be elicited, and
in this manner much slighter gradations of the disease may
be discovered than can be detected by immediate percussion.
This test is equally delicate in  distinguishing the  confines
of the lungs, the situation  and  extent  of the  heart, &c,
much more exactly than can be done by the method of Aven-
brugger;  and it certainly is an important  addition to the
physical method of diagnosis. 
TABULAR  VIEW
                                      OF THE
CHARACTERISTIC  PHYSICAL  SIGNS  OF DISEASES  OF THE LUNGS
                                 AND PLEURA.
TABLE II.
Disease.
  Peptoral
sound 'on  pei-
cursion.
  Acute Bron
chites.
  Chronic
Bronchitis.
  Pituitous
Catarrh.
  Dry Catarrh.
  Spasmodic
Asthma.
   Peripneu-
mony.
1st stage.

2d stage.

3d stage.
Emphysema.
CEdema.
  Pulmonary
Apoplexy.
Pleurisy.
Physical Signs in  the Part Affected.
Respiratory Sounds.
  Sometimes    Weak in parts ;  accom
slightly dimin- panied by a rhonchus, first
ished.         sonorous or sibilant, after-
              wards  mucous.  Towards
              the end, respiration some
              times  inaudible in  some
              spots
  Slightly im-   Weak in parts, or irregu
paired, if thejlar, with mucous rhonchus.
catarrh is ex
tensive.
  Partially im-
paired.
  Natural.
  Sometimes
impaired.
 A little  im
laired.

 Gluite dull.

 Gluite dull.
  Unnaturally
clear.
  Dull,  if the
effusion be ex-
tensive.
  Dull, if near
the surface,
and extensive

  Gluite dull.
  Weak, with sonorous, si
bilant and mucous rhonchi.
  More or  less  extinct in
parts.  Occasional sibilant,
sonorous, and dry mucous
rhonchi.
  Usually weak, or even in-
audible ; but distinct, and
even puerile,  immediately
after  holding the breath a
while.

  Weak,  with  crepitant
rhonchus.

  Bronchial, with crepitant
rhonchus.
  None; except sometimes
a coarse mucous rhonchus.
  Diminished,  and some
times  almost  extinct.
Cough accompanied by  a
sibilant rhonchus.
  Weak, withsubcrepitant
rhonchus.

  Extinct in  the  haemop-
toic spots; a rhonchus, first
subcrepitant,    afterwards
mucous, around them.
  First weak;  afterwards
extinct, except at the  root
of the lungs.
Vocal   reson
    ance.
Natural.
  Natural.
Bronchopho-
ny,  or  even
pectoriloquy
in dilated
bronchi.
  Natural.

  Natural.
Natural.
Sputa.
   Mucous, at
first  thin, af-
terwards
viscid.
  Mucous;
sometimes
purulent,
sometimes
streaked  with
blood.
  Pituitous.

A pearly thick
mucous.
Little or none.
Natural.	Viscid, of a
	rusty hue.
Broncho-	Rusty, & very
phony.	viscid or none.
None.	Sometimes
	purulent,
	sometimes
	brown and
	watery, often
Natural.	none.
	Sometimes
	mucous; of a
	dirty grey
Sometimes	color.
slight bron-	Slightly viscid
chophony.	and colorless
Occasionally	pituita.
broncho-	Blood, or
phony.	bloody mucus.
 At first asgo- None ;  or ca-
phony ;  after- tarrhal.
wards none.  I 
TABLE CONTINUED.
	Physical Signs in the Part Affected.			
Disease.	Pectoral sound on per-cussion.	Respiratory Sounds.	Vocal reson-ance.	Sputa.
Pleuropneu-monia. Hydrothorax. Pneumtho-rax, a. Simple. b. With fistulous com-munication with the bronchi, and liquideffusion. Phthisis. a. Stage of grey indura-tion, and crude tuber-cles. b. Stage of evacuation ol the softened tubercles.	Gluite dull. Gluite dull. Unnaturally clear. Dull in the dependent parts ; very clear above. Impaired, if the accumula-tion be exten-sive. Unequal.	At first weak, with cre-pitant rhonchus; then bron-chial, afterwards extin ct. Weak or extinct, accord-ing to the quantity of the effusion. Weak or extinct, accord-ing to the quantity of air effused. Ditto. Succession of the chest produces sound of fluc-tuation. Respiration and cough, sometimes attended with amphoric resonance or metallic tinkling. Weak, or somewhat bron-chial, if the accumulation be extensive. Cavernous rhonchus, re spiration, and cough.	Buzzing aegophony. ^gophony, when the effu-sion is scanty. Generally none; rarely metallic tink-ling. Metallic tinkling. Diffused bronchopho-ny, if the ac-cumulation be extensive. -Pectorilquy, when the ca-vity is empty.	As in perip-neumony. Various. Various. Phthisical. Sometimes catarrhal and scanty, some-times pituit-ous, some-times bloody. Mu co-puru-lent ; puru-lent ; tuber-cular ; curdy matter; san-guinolent; a grey or brow-nish grumous liquid.
 
 
 
 
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                ALL THE LAWS

                      RELATING TO

           MEDICAL  PRACTITIONERS.

                        WITH

                 Brcplimatora lilatea.
          By J. CHITTY, Esa.

              BARRISTER AT LAW.


       FIRST AMERICAN EDITION,

NOTES AND ADDITIONS ADAPTED TO AMERICAN WORKS AND JUDICIAL DECISIONS. 
JUST  PUBLISHED
                             BY

     Carey, Lea & Blanchard, Philadelphia,

            AND FOR SALE BY ALL BOOKSELLERS.


                             ON

        ,       THE  INFLUENCE


                             OF

 ATMOSPHERE AND LOCALITY; CHANGE OF AIR AND CLIMATE;
    SEASONS; FOOD; CLOTHING; BATHING; EXERCISE; SLEEP;
      CORPOREAL AND INTELLECTUAL PURSUITS, &c. &c.


            ON   HUMAN   HEALTH;


                         CONSTITUTING


   ELEMENTS  OF  HYGIENE.


                             BY

                ROBLEY DUNGLISON, M. D.

PROFESSOR OF MATERIA MEDICA, THERAPEUTICS, HYGIENE AND MEDICAL JURISPRUDENCE
   IN THE UNIVERSITY OF MARYLAND; ONE OF THE PHYSICIANS TO THE BALTIMORE
      INFIRMARY; MEMBER OF THE AMERICAN PHILOSOPHICAL SOCIETY, &C.


  " Valetudo suatentatur notitia sui corporis, et o'bservatione quse res aut prodesse soleant, aut
obcsie."—Cicero de Offic.
                         ALSO,
                 BY THE SAME AUTHOR,

A  TREATISE  OX  HUMAN  PHYSIOLOGY.
                  IN TWO VOLS. 8vo. 
              MEDICINE, &c.

  LIBRARY OF THE MEDICAL SCIENCES.

                MOW PUBLISHING,
                    THE

           CYCLOPEDIA
                     OF

   PRACTICAL   MEDICINE
                    AND

             SURGERY,

                     A

  DIGEST OF MEDICAL LITERATURE.

                 EDITED BY

           ISAAC HATS, Iffl. D.


         TERMS OF PUBLICATION.

  The work will be published in parts averaging 112
pages  each, and embellished with numerous wood
cuts.  It is expected that the work will be completed
in forty parts, making eight large volumes.  A part
will be published every month, if practicable.
  Price to Subscribers 50 cents each part.
  Gentlemen who are desirous to have the work for-
warded to them, will  please transmit  their orders to
ihe publishers, or to any of the Agents for the Amer-
ican Journal of the Medical Sciences, accompanied
by a remittance  of five dollars, which will  pay for
the first ten numbers.
  In order that the postage on this work may not in-
terfere with its extensive circulation, it is printed on
a very large sized paper, so that no one part will con-
rain more than five sheets of paper, thus making the
postage within one hundred miles, 7£ cents; or over
that distance, 12£ cents.


MANUAL of GENERAL, DESCRIPTIVE,
  and PATHOLOGICAL ANATOMY. By
  J. F.  Meckel,  Professor  of Anatomy at
  Halle, &c. &c. Translated from the French,
  with  Notes, by  A.  Sidney  Doane,  A. M.
  M.  D.  3 vols. 8vo.
  " It is among the most classical, learned, and authori-
tative  treatises on Anatomy."—American  Journal of
Med. Science.

SURGICAL   MEMOIRS  of  the  CAM-
  PAIGNS  of RUSSIA, GERMANY, and
  FRANCE.   Translated  from  the French
  of Baron Larrey.  In 8vo.  with  Plates.

A MANUAL of  MEDICAL JURISPRU-
  DENCE, compiled from the best Medical
  and Legal  Works ; comprising; an account
  of—I.  The Ethics of the  Medical Profes-
  sion ; II. Charters and Laws relative to the
  Faculty; and III. All Medico-legal  Ques-
  tions,  with the  latest Decisions:  being an
  Analysis of a course of Lectures on Foren-
  sic  Medicine.  By Michael Ryan, M. D.,
  Member of  the  Royal College  of Physi-
  cians in London, &c.   First American edi-
  tion,  with  Additions,  by  R.  Eolesfield
  Griffith,  M. D.   In  8vo.
  " There is not a fact of importance or value connected
with the science  of which it treats, that is not to be
found in its pases. The style is unambitious but clear
and strong, anil such as becomes a philosophic theme. —

"""It  fa invaluable to medical practitioners, and may
be consulted safely by the legal  profession."- Weekly
Ditjiatcii
             MEDICINE, &c.


A PRACTICAL TREATISE  ON  MEDI-
  CAL JURISPRUDENCE, with so much of Anato-
  my, Physiology,  Pathology, and the Practice of
  Medicine and Surgery, as are essential to be known
  by Members of the Bar and Private Gentlemen;
  and all the laws relating to Medical Practitioners;
  with explanatory plates.  By J. Chittv, Esq.  First
  American edition: with Notes and Additions, adapt-
  ed to American works and Judicial Decisions.  8vo.

DIRECTIONS  for MAKING ANATOMI-
   CAL PREPARATIONS,  formed  on the
   basis of Pole, Marjolin, and Breschet, and in-
   cluding the new method of Mr. Swan.   By
   Usher Parsons, M. D., Professor of Anato-
   my and Surgery.   1 vol. 8vo. with Plates.
  " It is compiled and prepared with judgment, and is
the best and most economical companion the student
can possess to aid him in the pursuit of this delightful
department of his labors "—Bost. Med. 8c Surg. Jour.
  "This is unquestionably one of the most useful works
on the preparation of Anatomical Specimens ever pub-
lished.  It  should be in the  hands of every  lover of
anatomy; and as attention now is more directed to the
formation of museums, it will be found a very valuable
book. Nothing is omitted that is important, and many
new formula: are introduced, derived from the author's
experience, and from rare books, which he has had the
industry to collect."—JV.  Y. Med. Journal, Aug. 1631.
A PRACTICAL GUIDE to OPERATIONS
   on the TEETH.   By James Snell, Dentist
   In 1 vol. 8vo. with Plates.
  " Those of our readers who practise in the department
of Surgery, on which Mr. Snell's essay treats, will find
some useful instructions on the mode of extracting
teeth."—Med. Gazette.
  "This is  an excellent practical work,  and will be
found generally useful."—Athenaum.
  "This is the best practical manual for the dentist we
have seen in the English language."—Gaz. of Health.
PRINCIPLES of PHYSIOLOGICAL MED-
   ICINE, including Physiology, Pathology,
   and Therapeutics, in the form of Proposi-
   tions, and commentaries on  those relating
   to Pathology,  by  F. J. V. Broussais,  &c. ;
   translated by Isaac Hays, M. D. and R. E.
   Griffith, M.  D.   In 8vo.
  "The present work will form an indispensable addi-
tion to the library of every physician.  It is a  very im-
portant and necessary companion to the  Treatise on
Physiology as applied to Pathology, by the same au-
thor."—American Journal of Med. Science.
PRINCIPLES of SURGERY. ByJoHNSvME,
   Professor of Surgery in the  University of
   Edinburgh.  In 8vo.

HUMAN  PHYSIOLOGY,   illustrated   by
   numerous Engravings; by Robley Dungli-
   son, M. D., Professor of Physiology, Pathol-
   ogy, &c. in the University of Virginia, Mem-
   ber of the American Philosophical Society,
   &c.   2 vols. 8vo.
  " It is the most complete and satisfactory system of
Physiology in the English language.   It will add to the
already high reputation of the author."—American Jour-
nal of Med. Science.
  " A work like this, so abounding in important facts,
so correct in its principles, and so free from errors aris-
ing from a prejudiced adherence to  favorite opinions,
will be cordially received and extensively consulted by
the profession, and by all who are desirous of a know-
ledge of the functions of the human body; and those
who are the best qualified to judge  of its  merits, will
pronounce it the best work  of the kind in the English
language."—Silliman.
  " This is a work of no common standing, it is char-
acterized by much learning and research, contains a
vast amount of important matter, and is written  b; a
scholar and a man of taste. We think it will be placed
by general consent at the head of the systems of Pi 'si-
ology, in the I>glish language."—Transylvania Journ 
IVTEDICINE.
The  PRACTICE of PHYSIC.   By W. P.
  Dewees, M. D. Adjunct Professor of Mid-
  wifery, in the University of Pennsylvania,
  2d edition, complete in 1 vol. 8vo.
  " We have no hesitation in recommending it  as deci
dedly one of the best  systems of medicine extant.  The
tenor of the work in general reflects the highest honor on
Dr. Dewees's talents, industry, and capacity for the  exe-
cution of the arduous task which he had undertaken. It
is one of the most able and satisfactory works which mod-
ern times have produced, and will be a standard authori-
ty."—London Med. and Surg. Journal, Aug. 1830.

DEWEES  on the  DISEASES  of  CHIL-
  DREN.  5th ed.  In  8vo.
  The objects of this work are, 1st, to teach those who
have the charge of children, either as parent or guar-
dian, the most approved  methods of securing and im-
proving their physical powers.  This is attempted by
pointing out the duties which the parent or the guar-
dian owes for this  purpose, to this interesting,  but
helpless class of beings, and the manner by which
their duties shall be fulfilled.  And 2d, to  render
available  a  long experience to these objects of our
affection when they become diseased.  In attempting
this, the author has avoided  as much as possible,
" technicality;"  and has given, if he does not flatter
himself too much, to  each disease of which he treats,
its appropriate and  designating characters,  with a
fidelity that will prevent any two being  confounded
together, with the best mode  of treating them, that
either  his own  experience or that of others has sug-
DEWEES on the DISEASES of FEMALES.
  4th edition, with Additions. In 8vo.
A COMPENDIOUS  SYSTEM  OF  MID-
  WIFERY ; chiefly designed  to facilitate the
  Inquiries of those who may be pursuing this
  Branch of Study. In 8vo. with 13 Plates. 6th
  edition, corrected and enlarged.   By W. P.
  Dewees, M. D.
The  ELEMENTS   OF THERAPEUTICS
  and MATERIA MEDICA.  By N. Chap-
  man, M. D.  2 vols.  8vo.  5th edition,  cor-
  rected and revised.
MANUAL of  PATHOLOGY:  containing
  the Symptoms, Diagnosis, and  Morbid Char-
  acter of Diseases,  &c.   By L.  Martinet.
  Translated, with Notes and Additions, by
  Jones  Quain.   Second American  Edition,
  12mo.
   We strongly recommend  M. Marti net's Manual to the
profession, and especially  to students; if the latter wish
to study diseases to advantage, they should always have
it at hand, both when ai the bedside  of the patient, and
when making popt mortem examinations."—American
Journal of the Medical Sciences, No. /.
CLINICAL ILLUSTRATIONS of FEVER,
  comprising a Report  of the Cases treated at
  the London Fever Hospital in 1828-29, by
  Alexander Tweedie, M. D., Member of the
  Royal College of Physicians of London, &c,
  1 vol.  8vo.
  " In short, the present  work, concise, unostentatious
as it is, would have led us to think that Dr. Tweedie was
a man of clear judgment, unfettered by attachment to
any fashionable hypothesis, that he was an energetic but
judicious practitioner, and that, if he did  not dazzle his
readers with the brilliancy of theoretical speculations, he
would command their assent to the solidity of his didac-
tic precepts."—Med. Chir.  Journal.
The ANATOMY, PHYSIOLOGY, and DIS-
   EASES of the TEETH. By Thomas Bell,
   F.R.S., F.L.S. &c. In 1 vol. 8vo. With Plates,
  " Mr. Bell  has evidently endeavored  to construct t
work of reference for the practitioner, and a text-book
for the student, containing a 'plain and practical digest
of the information at present, possessed on the subject,
and results of the author's own investigations and expe-
rience.' '•***" We must now take leave of Mr.  Bell,
whose work we have no doubt will become a class-book
on the important subject of dental surgery."—Medico-Chi-
rurgical Review.
  "We have no hesitation in pronouncing it to be^he
best treatise in the English language."—North American
Medical and Surgical Journal, No. 19.
AMERICAN  DISPENSATORY.     Ninth
   Edition, improved and greatly enlarged.  By
   John Redman Coxe, M. D. Professor of Ma-
   teria Medica and Pharmacy  in the  Univer-
   sity of Pennsylvania.   In 1 vol. 8vo.
  %* This new edition  has been arranged with  spe-
cial reference to the recent Pharmacopoeias, published
in Philadelphia and New-York.
ELLIS'  MEDICAL FORMULARY.  The
   Medical Formulary, being  a collection of
   prescriptions derived from  the  writings and
   practice of many of the most eminent Phy-
   sicians in America and Europe. By Benjamin
   Ellis, M. D.   3d. edition.  With Additions.
  ' We would especially recommend it to our brethren in
distant  parts of the country, whose insulated situations
may prevent them from having access to the many autho-
rities which have been consulted in arranging  the mate-
rials for this work."—Phil. Med. and Phys. Journal.
MANUAL  of   MATERIA  MEDICA  and
   PHARMACY.  By H. M. Edwards, M. D.
   and P. Vavasseur, M. D. comprising a con-
   cise Description  of the Articles  used  in
   Medicine;  their  Physical   and  Chemical
   Properties; the Botanical Characters of  the
   Medicinal Plants; the Formulae for the Prin-
   cipal Officinal Preparations of the American,
   Parisian, Dublin, &c. Pharmacopoeias; with
   Observations on the proper Mode of combin-
   ing  and  administering Remedies.  Trans-
   lated from the French, with numerous Ad-
   ditions and Corrections, and  adapted to  the
   Practice of Medicine and to the Art of Phar-
   macy in the United States.  By Joseph Tog-
   no, M. D. Member of the Philadelphia Med-
   ical Society, and E. Durand,  Member of the
   Philadelphia College of Pharmacy.
  "It contains all the pharmaceutical information  that
the physician can desire, and in addition, a larger mass of
information, in relation to the properties, &c. of the dif-
ferent articles and preparations employed in  medicine,
than any of the dispensatories, and we  think will entirely
supersede all these publications in the  library of the phy-
sician."—Am. Journ. of the Medical Sciences.
MEMOIR on the TREATMENT of  VENE-
   REAL DISEASES without MERCURY,
   employed  at  the  Military Hospital of  the
   Val-de-Grace.   Translated from the French
   of H. M. J. Desruelles, M. D.  &c.  To which
   are  added,  Observations by  G.  J. Guthrie,
   Esq. and  various documents, showing  the
   results of this Mode of Treatment, in Great
   Britain,  France,  Germany,  and  America
   1  vol.  8vc. 
PHYSIOLOGICAL  MEDICINE,  ANATOMY,  &c
HISTORY OF CHRONIC PHLEGMASLE,
  OR INFLAMMATIONS, founded on Clin-
  ical Experience and Pathological Anatomy,
  exhibiting a View of the different Varieties
  and Complications of these Diseases, with
  their  various Methods of  Treatment.  By
  F. J. V. Broussais, M. D.   Translated from
  the French of the fourth  edition, by Isaac
  Hays, M. D. and R. Eglesfeld  Griffith,
  M. D., Members of the Am. Philosophical  So-
  ciety, Acad, of Nat. Sc, &c. &c. 2 vols. 8vo.
THE  MEDICAL  COMPANION, or FAMILY
  PHYSICIAN : treating of the Diseases of the
  United States, with their symptoms, causes, cure,
  and means of prevention; common cases in Surge-
  ry, as fractures, dislocations, &c.; the management
  and diseases of women and children; a dispensato-
  ry of preparing family medicines, and a Glossary
  explaining technical terms.  To which are added, a
  brief Anatomy and Physiology of the Human Body,
  showing, on rational principles, the cause and cure
  of diseases.  An essay on Hygiene, or the art of
  preserving health, without the aid of medicine. An
  American Materia Medica, pointing out the virtue
  and doses of our medicinal plants. Also, the Nurse's
  Guide.  The 8th edition.  By James Ewell, M. D.
  In one large vol. 8vo.
  %* This edition has undergone a complete revision,
 and is brought up to the present time.
 A TREATISE ON PHYSIOLOGY, Applied
   to Pathology.  By F. J. V. Broussais, M. D.
   Translated from the French, by Drs. Bell
   and La Roche. 8vo.  Third American edi-
   tion,  with additions.
  " We cannot too strongly recommend the present work
 to the attention of our readers, and indeed of all those
 who wish to study physiology as it ought to be studied,
 in its application to the science of disease." " We may
 safely say that he has accomplished his task in a most
 masterlv manner, and thus established his reputation as
 a most excellent physiologist and profound pathologist."
 —North American Med. and Surg. Journ. Jan. 1827.

 A TREATISE ON  DENTAL SURGERY.
    Second  edition, revised, corrected, and  im-
    proved, with new plates.   By S. S. FrrcH,
    M. D.   1 vol.  8vo.

 THE PRACTICE OF MEDICINE, upon the
    Principles  of  the Physiological Doctrine.
    By J. G. Coster, M. D.  Translated from
    the French.
 An EPITOME   of  the  PHYSIOLOGY,
   GENERAL ANATOMY, and  PATHOL-
   OGY of BICHAT.  By Thomas Hender-
   son,  M.  D. Professor  of the Theory and
   Practice of Medicine in  Columbia College,
   Washington City.   8vo.
 PHYSIOLOGICAL PYRETOLOGY;  or, A Trea-
   tise on Fevers, according to the Principles of the
   New Medical Doctrine.  By F. G. Boisseau, Doctor
   in Medicine of the Faculty of Pans, &c. &c.  From
   the fourth French edition.  Translated  by  J. K.
   Knox, M. D.  1  vol. 8vo.
  "Boisseau's Pvretology is not merely the most remarkable performance
 aJ& S«yet app-re^ among the dfsciple..rfJXT^rUi-Wh cb
 •b!e.t and most satisfactory exposition of the l^lf&^ Ab XlV
 we axe acquainlcd.''-^merttan Journal of Meixcal Sciences, No. X.IV.
ON THE INFLUENCE OF VARIOUS PHYS-
  ICAL AND MORAL AGENTS; Climate and Lo-
  cality, Change of Air, Food, Clothing, Bathing, Ex-
  ercise, Professions, &c, on Healthy Man: constituting
  elements of private Hygiene, or the art of preserv
  ing health.  By Robley Dunglison, M. D, Profes
  sor of Materia Medica, &c, in the University of
  Maryland, Author of a Treatise on Human Physi-
  ology, &c. &c.  1 vol. 8vo.  (In the press.)
A TREATISE on PATHOLOGICAL ANATOMY.
  By William E. Horner,  M. D., Adj. Prof, of An-
  atomy in the University of Pennsylvania.
  "We can conscientiously commend it to the members of
the profession, as a satisfactory, interesting, and instruc-
tive  view of the subjects  discussed,  and as well adapted
to aid them in forming a  correct appreciation of the dis-
eased conditions they are called on to relieve.'—American
Journal of the Medical Sciences, No.  9.

           By the same Author.
A TREATISE on SPECIAL and GENERAL
  ANATOMY.    Third edition, revised and
  corrected, in 2 Vols. 8vo.
 THE  HAND;  ITS MECHANISM, AND
  VITAL  ENDOWMENTS, AS EVINCING DE-
  SIGN. By Sir Charles Bell.  1 vol. 12mo. Being
  a part of the Bridgewater Treatises.

SYSTEM of ANATOMY, for the use of Stu-
  dents of Medicine.  By Caspar  Wistar.
  Sixth edition,  revised and  corrected, by W.
  E. Horner, Adjunct Professor of Anatomy
  in the  University of  Pennsylvania.  In 2
  Vols. 8vo.

ELEMENTS of  GENERAL  ANATOMY,
  or a description of the  Organs comprising
  the Human Body.   By P. A.  Beclard, Pro-
  fessor of Anatomy to the Faculty of Medi-
  cine at Paris.  Translated  by  J. Tog no.

TREATISE  on  SURGICAL  ANATOMY.
  By Abraham Colles,  Professor of Anatomy
  and  Surgery, in the Royal College of Sur-
  geons  in  Ireland, &c.  Second American
  edition, with notes by  J. P. Hopkinson, De-
  monstrator of Anatomy in  the University of
  Pennsylvania, &c. &c.

 A  TREATISE  ON  DISEASES OF THE
   HEART AND GREAT  VESSELS.   By
   J. R.  Bertin.   Edited by G.  Bouillaud.
   Translated from the French.   8vo.
ON THE INFLUENCE of ATMOSPHERE
  AND  LOCALITY; Change  of Air and
  Climate; Seasons; Food; Clothing;  Bath-
  ing ; Exercise; Sleep; Corporeal and Intel-
  lectual Pursuits, &c. &.c. on Human Health:
  constituting Elements of  Hygiene.   By
  Robley  Dunglison, M.  D.,  Author of a
  Treatise  on Human Physiology. 1 vol. 8vo. 
SfcXGDZCINE
A TREATISE on FEVER.   By Southwood
  Smith, M. D., Physician to  the  London
  Fever Hospital.
  "No work has been more lauded by the Reviews than
the Treatise on Fevers, by Southwood Smith.  Dr. John-
son, the editor of the Medico-Chirurgical Review, says,
' It is the  best  we have ever perused on the subject of
fever, and  in our conscience, we believe it the best that
ever flowed from the pen of physician in any age  or in
any country.'"—Am. Med. Journ.
An ESSAY on REMITTENT  and INTER-
  MITTENT DISEASES, including generic-
  ally Marsh Fever and Neuralgia—compris-
  ing under the  former,  various Anomalies,
  Obscurities, and Consequences, and under a
  new systematic View of the latter, treating
  of  Tic  Douloureux, Sciatica, Headache,
  Ophthalmia,  Toothache, Palsy, and  many
  other Modes and Consequences of this gene-
  ric Disease; by John Macculloch, M. D.,
  F. R. S. &c. &c.
  " In rendering Dr. Macculloch's work more accessible
to the profession, we are conscious that we are doing the
state some service."—Med. Chir.  Review.
  " We most strongly recommend Dr. Macculloch's  trea-
tise to the attention of our medical brethren, as present-
ing a most valuable mass of information, on a most im-
portant subject."—N.A. Med. and Surg. Journal.
A PRACTICAL SYNOPSIS OF CUTANE-
  OUS DISEASES, from the most celebrated
  Authors, and particularly from Documents
  afforded  by the  Clinical  Lectures of  Dr.
  Biett, Physician to the Hospital of St. Louis,
  Paris.   By A. Cazenavf, M. D. and H. E.
  Schedel, M. D.   Second edition.
  ''We can safely recommend this work to the attention
of practitioners as containing much practical informa-
tion, not only on the treatment, but also on the causes
of cutaneous affections, as being in fact  the best treatise
on diseases of the skin that has ever appeared."—Ameri
can Journal of the Medical Sciences, No. 5.
LADY'S MEDICAL GUIDE.   By Richard
  Reese, M. D.  18mo.
  of Baron Larrey.
LECTURES ON INFLAMMATION, exhib-
  iting  a view of the General Doctrines, Pa-
  thological  and Practical,  of Medical  Sur-
  gery.  By John Thompson, M. D., F. R. S. E.
  Second American edition.
THE INSTITUTES AND PRACTICE OF
  SURGERY; beina: the Outlines of a Course
  of Lectures.   By W. Gibson, M. D. Profes-
  sor of Surgery  in the University of Pennsyl-
  vania. 4th edition, revised, corrected,  and
  enlarged.  In 2 vols. 8vo.
PRINCIPLES OF MILITARY SURGERY,
  comprising Observations on  the  Arrange-
  ments, Police, and Practice  of  Hospitals,
  and on the History, Treatment, and Anoma-
  lies of Variola and Syphilis; illustrated with
  cases  and dissections.  By John Hennen,
  M. D.,  F. R.  S. E.   Inspector of Military
  Hospitals—first American from  the third
  London edition, with the Life of the Author,
  by his son, Dr. John Hennen.
  ,fThe value of Dr.  Hennen's work is too well appreci-
ated to need any praise of ours.  We were only required
then, to bring the third edition  before the notice of our
readers; and having done this, we shall merely add, that
the volume merits a place in every library, and that no
inilitary surgeon odght to be without it."—Medical Gai.
SURGERY.
AMERICAN JOURNAL. OF THE MEDICAID
                 SCIENCES.
           FuTjIislied Quarterly*
And supported by the most distinguished Physicians
  in the United blates, among which are Professors
  Bigelow, Channing, Chapman, Coxe, De Butts, De-
  wees, Dickson, Dudley,  Francis,  Gibson, Hare,
  Henderson, Horner, Hosack, Jackson, Macneven,
  Mott,  Mussey,  Physick, Potter, Sewall,  Warren,
  and Worthington;  Drs. Daniel!, Drake, Emerson,
  Fearn, Geddings, Griffith, Hale, Hays, Hayward,
  Ives, Jackson, Moultrie, Ware, and Wright.  It is
  published punctually on  the first  of November,
  February, May, and August  Each No. contains
  about 280 large 8vo. pages, and one or more plates
  —being a greater  amount of matter  than is fur-
  nished bv any other Medical Journal in the United
  States. Price $5 per annum.
  The following Extracts show the estimation
in which this Journal is held in Europe:—
  "Several of the American Journals arc before ns. * * *
Of these the American Journal of the Medical Sciences
is by far the better periodical; it is, indeed, the best of the
trans-atlantic medical publications; and, to make a com-
parison nearer home, is in most respects superior to the
great majority of European works of the same descrip-
tion."—The Lancet, Jan. 1831.
  "We need scarcely refer our esteemed and highly emi-
nent cotemporary, \The American Journal of the Medical
Sciences,] from whom we quote, to our critical remarks
on the opinions of our own countrymen, or  to the princi-
ples which influence us in  the discharge of our editorial
duties."  " Our copious  extracts from his unequalled pub-
lication, unnoticing multitudes of others which come be-
fore us, are the best proof of the esteem which we enter-
tain for his talents and abilities."—London Medical and
Surgical Journal, March, 1830.
  "The American Journal of the Medical Sciences is one
of the most complete and best edited of the numerous
periodical publications of the United States."—Bulletin
des Sciences Medicates, Tom. XIV.

PATHOLOGICAL and  PRACTICAL  RE-
  SEARCHES  on DISEASES of the BRAIN
  and SPINAL CORD.  By John Abercrom-
  BIE, M. D.
  " We have here  a work of authority, and one which
docs credit to the author and his country."—North Amer.
Med. and Surg. Journal.

            By the same Author.
PATHOLOGICAL and  PRACTICAL  RE-
  SEARCHES on DISEASES of the STO-
  MACH, the  INTESTINAL CANAL, the
  LIVER,  and other  VISCERA of  the
  ABDOMEN.
  " We have now closed a very long review of a very
valuable work, asd although we have endeavored to con-
dense into our pages a great mass of important matter,
we feel that our author has not yet received justice."—
Medico-Chirurgical Review.

A  RATIONAL  EXPOSITION  of  the
  PHYSICAL   SIGNS of  DISEASES  of
  the  LUNGS and  PLEURA; Illustrating ,
  their Pathology and  facilitating their Diag- I
  nosis. By Charles  J. Williams,  M. D.  In !
  8vo. with plates.
  " If we are not greatly mistaken, it will lead to a better
understanding, and a more  correct estimate of the value
of auscultation, than any thing that has yet appeared."
—Am. Med. Journal                              '

MANUAL of the PHYSIOLOGY of MAN;
  or  a  concise Description of the Phenomena
  of his Organization.   By P. Hutin.  Trans-
  lated from  the French,  with  Notes, bv  J.
  Togno.  InLJmo.                     ' 
2. 
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