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enclosed in a canal by a strong band, the anterior annular the sacro-iliac ligaments require to be of great strength,
between the two feet when standing on both legs, the body
will not fall. If the body is made to lean forward, then JOINTS AND MUSCLES OF THE LOWER LIMB.
the capsular ligament is no longer tense, and the glutæal The innominate bones are connected to the spinal column muscles are put in action to re-extend the trunk on the by the sacro-iliac joints and the sacro-sciatic ligaments. thigh, and prevent it from falling forward ; if the body is The Sacro-iliac Joint is between the side of the sacrum and made to lean to one side or the other, the round ligament the internal surface of the ilium, the articular surfaces of is made tense, or the strong ilio-tibial band of the fascia which bones are covered by cartilage, and connected | lata of the thigh, which stretches from the iljum to the together by short, strong ligaments. The sacro-sciatic tibia, is put on the stretch, and falling sideways is preligaments stretch from the side of the sacrum and coccyx vented. When, in standing erect either on one or both to the spine and tuberosity of the ischium. The two feet, the balance of the body is disturbed, then various innominate bones are also connected together at the pubic muscles both of the trunk and lower limb are brought into symphysis, which is an amphiarthrodial joint.
action to assist in preserving the erect position. In the iliac joints and pubic symphysis permit only slight move erect position the weight of the trunk is transmitted ment; that at the former is around an imaginary axis, through the acetabula to the heads of the thigh-bones, but drawn transversely through the second sacral vertebra, which the position and connections of the round ligament enable allows the base of the sacrum to be thrown forward and its it to suspend that portion of the trunk the weight of which apex backward in the stooping position of the body; but is thrown upon it, and to distribute the weight over the too great movement backward of the apex is checked by head of the femur. the sacro-sciatic ligaments. As the weight of the trunk, The Knee is the largest and inost complicated joint in Knee. or of what may be carried in the arms or on the back, is the body. It consists of the femur, tibia, and patella. transmitted through the haunch-bones to the lower limbs, The patella moves up and down the trochlear surface of
the femur, whilst the condyles of the femur roll upon the exists between the astragalus and us calcis, between which
The Tibio-fibular Joints are found between the upper its metatarso-phalangeal joint and the heel. The hallux and lower ends of the bones, and in addition a strong is much more restricted in its movements than the thumb: interosseous membrane fills up the interval between their the configuration of its tarso-metatarsal joint and the shafts. The movement between the two bones is almost attachment of the transverse metatarsal ligament prevent inappreciable.
the great toe from being thrown across the surface of the Joints of The Ankle Joint is formed by the convex upper and the sole as the thumb is thrown across the palm in the moveankle and lateral surfaces of the astragalus fitting into the concavity ment of opposition; an object can, however, be grasped foot.
forried by the lower end of the tibia and the two malleoli. between the hallux and second toe by the action of its
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limbs. Suppose a person to be standing erect, with one walls of the great visceral chambers,—the thorax and abdomen,leg a little in advance of the other; the body, being is marked off by the position and course of the intercostal series of
spinal nerves. inclined slightly forwards, is pushed in advance by the
The muscles of the appendicular skeleton are either limited to extension of the hindmost limb, so that the weight falls the limbs (purely appendicular, therefore), or pass from the axiai more and more upon the advanced leg, which at the same part of the body to the limb (axi-appendicular). The axi-appen. time is shortened by bending the knee and ankle. The dicular group are undoubtedly prolongations of the axial system of
muscles. They are in the upper limb derived from the epi-skeletal heel of the hindmost limb being then raised by the action
subdivision, and form the trapezius, rhomboid, levator anguli of the muscles of the calf, the toes press against the ground scapulæ, latissimus dorsi, serratus magnus, greater and smaller so as to push the trunk so far in front of the advanced pectorals, and subclavius muscles of each superior extremity. In limb as to be no longer safely supported by it; the hind
the lower limb they are in part derived from the hypo-skeletal most limb is then raised from the ground by muscular
subdivision, and form the psoas and pyriformis; and in part, as the
glutæus maximus, from the epi-skeletal subdivision. It is not action, and allowed to swing forward by its own weight, improbable that the purely appendicular muscles are also prolonbut guided by the muscles, until the toes touch the ground gations of the axial system, and that as the limbs, in their developin front of the opposite limb. A step has now been made,
ment from their fundamental bud-like lappets, undergo both a and the limbs are in a corresponding but opposité position prolon
transverse and a longitudinal segmentation, so the muscular mass,
prolonged into them, differentiates both transversely and longifrom that in which they were when the step commenced : tudinally into a motor apparatus, fitted for the performance of the a repetition of the act constitutes another step, and so the special functions of each extremity. alternate action continues. At one moment in each step both feet touch the ground at the same time, i.e., when
ANATOMY OF THE TEXTURES OR TISSUES. the hind foot presses against the earth. The act of running consists in a repetition of the movements of walking per
Introductory. formed with so much greater rapidity that the feet never touch the ground at the same moment; the heels also are Before proceeding to the description of the other organic never bronght to the ground. The propulsive action is systems of which the human body is built up, it may be also greatly increased by the extension of the hip and knee well to enter into the consideration of the minute or joints, so that a succession of small leaps on to alternate microscopic structure of its constituent parts. These parts feet takes place. In leaping from the standing position may primarily be divided into fluids and solids. The fluids the joints of both lower limbs, previously flexed, are suddenly are the blood, the lymph, the chyle, the secretions of the and simultaneously extended, and the body is projected various glands, and of the serous and synovial membranes. forwards with a rapid impulse.
The solids form the framework of the several organic
systems, and assume different appearances in different Development and Homologies of the Voluntary Muscular System. localities. Sometimes they are arranged in compact solid
The voluntary muscles, like the bones and joints with which masses, as in cartilage ; at others they are elongated into they are so intimately associated, are developed out of the middle fine threads or fibres, as in muscle, tendon, nerve; at of the three layers—the meso-blast-into which the germinal area others they are expanded into thin membranes, as in the or blastoderm of the young embryo is divided. The muscles of the axial skeleton are capable of subdivision into a group situated fasciæ or aponeuroses, the serous, synovial, and mucous outside the eudo-skeleton, i.e., between it and the integument- membranes ; at others they are hollowed out into distinct which muscles have recently been called epi-skeletal—and a group tubes for the conveyance of fluids, as in the blood-vessels, lying on the ventral surface of the vertebral bodies and within the the lymph and chyle vessels, and the ducts of glands. To rib arches, which have been termed the hæmal or hypo-skeletal muscles. The epi-skeletal muscles, like the vertebræ themselves,
the solids of the body, whatever their form may be, the are developed within the proto-vertebrve, but it is not known if the general name of Tissues or Textures is applied. Each hypo-skeletal group have the same origin. In fishes the epi- organic system may be regarded as in the main composed skeletal muscles preserve their fundamental arrangement with but of a tissue or texture peculiar to and characteristic of itlittle modification. They are disposed in transverse segments or myotomes, which equal in number the vertebræ. These myotomes self. Thus, the bones are essentially composed of the are separated from each other by bands of fibrous tissue, the inter
osseous tissue, the muscles of the muscular tissue, the muscular septu. In man and the higher vertebrates the simple nervous system of the nervous tissue, fibrous membranes of transversely segmented arrangement is to a large extent lost. Traces the fibrous or connective tissue, &c. But though the are preserved, however, in the interspinales and intertransversales muscles, situated in the intervals between the spines and transverse essential constituent of each organic system is å tissue processes of some of the vertebral segments ; in the external inter peculiar to that system, yet in most localities certain other costals and in the recti abdominis muscles, in the last-named of tissues are mingled with that which is to be regarded as which tendinous bands subdivide the muscle into several transverse the characteristic texture of the part. In a muscle, for segments. More usually, the intermuscular septa either are not example, not only is the muscular tissue present, but continuous mass of muscle. In some instances the fibres of this mingled with it are connective tissue, nerve tissue, blood. muscle run longitudinally, and the entire mass subdivides longi vessels, and lymph-vessels. A gland also not only consists tudinally into separate and distinct parallel muscles, as is seen in of its proper tissue, the secreting cells, but of more or less the subdivision of the great erector spinæ into the sacro-lumbalis, musculus accessorius, cervicalis ascendens, longissimus dorsi, trans
connective tissue, nerves, blood and lymph vessels, and versalis cervicis, trachelo-mastoid, and spinalis dorsi muscles. In gland ducts. Indeed, there are few localities in which, other instances the muscles run obliquely; some on the back of along with the proper tissue of the part, blood and lymph the body pass obliquely from below upwards and outwards, as the vessels, nerves and connective tissue, are not found; and to splenius and obliquus inferior ; others obliquely from below, upwards and inwards, as the complexus, obliquus superior, semi
a part built up of two or more tissues the name of an spinalis, multifidus and rotatores spinæ ; others again, as the external Organ is applied. Thus the muscular system consists of and internal oblique muscles of the abdomen, extend'obliquely from the series of organs which we call the muscles, the glandbehind forwards to the ventral mesial line.
ular system of the several organs called glands, and so on. Of the hypo-skeletal group of muscles, the internal intercostals dis. Each tissue and each organ, into the construction of which play the transverse segmentation. As a rule, however, the muscles that tissue enters as the characteristic texture, possesses of this group extend longitudinally, and form the præ-vertebra, group, named anterior recti, longi colli, and psoæ ; though the diaphragm, not only distinctive structural, but also distinctive functional triangulares sterni, transversi abdominis, and levatores ani, which properties. Thus the muscular tissue is characterised by lie in relation to the inner surfaces of the ribs and visceral cavities, are not longitudinal, but are specially modified in arrangement for it forms the essential texture, are organs of motion or
the property of contractility, and the muscles, of which functional reasons. T'he plane of demarcation between the hypoand epi-skel-tal groups of muscles, where they form together the | locomotion; the osseous tissue is characterised hy its
hardness and strength, and the bones, of which it forms body of a higher organism, he has given the general name
But the study of the textures embraces an inquiry not soft protoplasm, without a trace of differentiation either
clump of protoplasm contains a nucleus in its interior,
whether a nucleolus be present or not, it is called a GENERAL CONSIDERATIONS ON CELLS.
Nucleated Cell. Cells are definite anatomical and The simplest form of organic matter capable of ex- physiological units, and exhibit all the phenomena of hibiting the phenomena of life is called Cyto-blastema or life. Some of the lowest organisms consist merely of a Protoplasm. It possesses a viscous or jelly-like con- single cell, others of two or more cells united together, sistency. Under the highest powers of the microscope it and these are called uni- or multi-cellular organisms. seems to be homogeneous, or dimly granulated, like a Cells also enter in the most material manner into the sheet of ground glass. Not only can it assimilate nutri- constitution of the textures of all the higher forms of ment and increase in size, but it possesses the power plants and animals. Not unfrequently the peripheral of spontaneous movement and contractility. It enters in part of the protoplasm of the cell differentiates into a a very important manner into the structure of the bodies distinct investing envelope, technically named a cell wall of the lower animals. The elongated processes, or pseudo- or cell membrane. podia, to which Dujardin applied the
In the earlier periods of investigation into the minute name of sarcode, which the Rhizopoda
structure of cells it was believed that a cell wall was concan project from their surface into the
stantly present, and that each cell was a minute microsurrounding medium, and again with
scopic vesicle or bladder, which in its typical shape was draw into their substance, consist of
globular or ovoid, but capable of undergoing various modi. protoplasm, and may be cited as fur
fications both in form and chemical composition. The nishing excellent examples of its
material enclosed by the cell wall was termed the cell conmotive and contractile power. From
tents, and either in the midst of these contents or in conthe recent researches of Haeckel it
tact with the cell wall was the nucleus, which might or might would appear that protoplasm is
not contain a nucleolus. Schwann believed that the cell capable of forming, without the super. Fra. 25. — Undifferentiated
wall was the most active constituent of the cell, i.e., posaddition of any other structure,
inde cytode mass of proto- sessed the power not only of producing chemical and
plasm. pendent organisms, which stand at
physical changes in its own substance and in the cell the lowest grade of organisation, and from their extreme contents, but of separating materials from the surrounding simplicity are named by him Monera. To the group media,-of secreting them, as it were, into the interior of Monera belong the genera Protamceba, Protogenes, and the cell. In this manner he accounted for the formation Bathybius. Of these, Bathybius is that
in some cells of fat, in others of pigment, in others of the which has attracted most attention. It has
characteristic secretion of glands, and so on. been regarded as a layer of soft slimy un
It was then maintained by John Goodsir that the differentiated protoplasm covering the bot
nucleus was the part of a cell which in all probability was tom of the deep sea, and capable of exhibit
concerned in separating and preparing its characteristic ing the phenomena of contractility, growth,
cell contents, and in its nutrition. Martin Barry and
NU assimilation of food, and reproduction.
Goodsir also contended that the reproduction and multiDoubts, however, have been expressed re
plication of cells were due to self-division of the nucleus, garding the nature of this Bathybius, so
which was thus the source of successive broods of young that it cannot now be cited as so definite
cells. They gave to the nucleus, therefore, an importance an organism as the freely-swimming Pro- Fr. 26.- A simple in the economy of the cell greater than had previously tamoba and Protogenes. Haeckel has re
been assigned to it. ferred these simple organisms to a sub protoplasm cell As the investigations into cell structure became more kingdom of PROTISTÆ, which he considers
nucleus; Nu, nu extended, it was ascertained that a cell wall was by no to lie on the confines of both the animal cleolus.
means always present; that in many of the cells in which and vegetable kingdoms. To a mass of protoplasm, whether it had been supposed to exist it could not satisfactorily be it forms, as in one of these PROTISTÆ, an independent demonstrated, and that in others, more especially in yourg organism, or is merely a portion of the substance of the actively-growing cells, no trace of an investing envelope
could be observed. Hence the importance of the cell wall as are descended from those produced by tne segmentation an essential component of a cell was still further diminished; of the yelk. The process of developinent of young cells and Leydig then defined a cell to be a little mass composed within a parent cell, whether it occurs in the ovum or in of a soft substance enclosing a central nucleus.
a cell derived by descent from the ovum, is called the But a most important advance in our conceptions endogenous reproduction of cells. But cells may multiply of the essential structure of a cell was made when by a process of fission—i.e., a constriction, gradually deepBrücke pointed out that the contents of cells not unfre-ening, may take place in a cell until it is subdivided into quently possessed the property of spontaneous move- two; the nucleus at the same time participating in the ment and contractility, and when Max Schultze deter- constriction and subdivision. A third mode of multiplimined that the contractile substance termed sarcode, cation of cells is by budding : little clumps of protoplasm which forms so large a part of the bodies of the lower bud out from the protoplasm of the parent cell, become animals, was analogous and apparently homologous with detached, and assume an independent vitality. If a the contents of young actively-growing animal and vege- nucleus differentiates in the interior of such a clump, it table cells, before a differentiation of these contents into becomes a cell; if it remains as a mere clump of protospecial secretions or other materials had taken place. As plasm, it is a cytode. the term “protoplasm" had been introduced by Von Mohl These various methods of multiplication are all conto express the contents of the vegetable cell, which under- firmatory of Schwann's generalisation of the descent or goes changes in the process of growth, it was adopted by derivation of cells from pre-existing cells. But as the the animal histologist; and Max Schultze suggested nucleated cell, either with or without a cell wall, is not, in that a cell should be defined to be a nucleated mass the present state of science, regarded as the simplest and of protoplasm,-a definition which is adopted in this most elementary unit capable of exhibiting vital phenoarticle. Now, as protoplasm, whether it occurs along with mena, and as these phenomena can be displayed by india nucleus in the form of a cell, or in independent clumps vidual clumps of protoplasm, without the presence of a or cytodes, exhibits not merely the property of contrac- nucleus, some modification of the doctrine, as regards the tility, but the power of growing and maintaining itself, it formation of the tissues from nucleated cells, seems to be is regarded as the functionally active constituent of the necessary. For, although there can be no doubt that all cell. And thus our conceptions as to the part of the cell the tissues are mediately derived from the ovum or fundain which its functional activity resides have passed through mental cell, and that most of the tissues are derived three phases. In the first, the cell wall; in the second, the directly from nucleated cells, yet there is reason to think nucleus; in the third, the protoplasm cell contents, or cell that a differentiation of a cytode clump of protoplasm into substance, has been regarded as the active constituent, not tissue may take place, so that the direct formation of such only as regards its nutrition, but the reproduction of a tissue would be, not from a nucleated cell, but from the young cells. But though the protoplasm can of itself more simple cytode. Hence a more comprehensive gene perform these offices, yet there can be no doubt, as Barry ralisation, to which observers have gradually been led and Goodsir were the first to show, that the nucleus of the from the consideration of numerous facts, has now been cell plays a part not unfrequently in the multiplication of arrived at that the tissues and organs of the body, whatcells by self-division.
ever may be their form and composition, are formed of One of the most characteristic cells is the mammalian protoplasm, or produced by its differentiation; and that ovum. In it a cell wall exists, known
the protoplasm itself is derived by descent from the protoas the zona pellucida or vitelline
plasm substance of the primordial germ-cell. Some, inmembrane ; within this envelope is
deed, have contended that protoplasm, cells, and their the granular yelk or cell contents, NL
derivatives can arise by a process of precipitation or in the midst of which is imbedded
aggregation of minute particles or molecules in an organic the nucleus or germinal vesicle, which
infusion, and that living matter may be thus spontanein its turn contains the nucleolus
ously generated. But the evidence which has been or germinal spot. The granules of F10, 20e Orum of 29 sheep: advanced in support of this hypothesis is by no means the yelk are a special metamorphosis lucida ; P, protoplasmo?
leidy protoplasm Polisatisfactory or conclusive, whilst the correctness of the of the protoplasm cell substance.
theory of the direct descent of protoplasm from pre-existSchwann made the important
ing living protoplasm is supported by thousands of generalisation that the tissues of the animal body observations made by the most competent inquirers. are composed of cells, or of materials derived from In the process of conversion of protoplasm into the cells, “ that there is one universal principle of develop- several tissues, there takes place a differentiation of form ment for the elementary part of organisms, however and structure (i.e., a morphological differentiation), and of different, and that this principle is the formation of composition (i.e., a chemical differentiation), as the result cells.” The ovum is the primordial or fundamental cell, or of which a physiological differentiation is occasioned, germ-cell, from which, after being fertilised by the male whereby tissues and organs are adapted to the performance sperm, the tissues and organs of the animal body are of special functions. Hence arise the several forms of derived. Within the fertilised ovum multiplication of tissue which occur in the human body and in the higher cells takes place with great rapidity It is as yet an un
animals. Many of the tissues consist exclusively of cells settled question how far the original nucleus of the ovum which present in different parts of the body characteristic participates in this process of multiplication ; but there modifications in external configuration, in composition, and can be no doubt that the protoplasm cell contents divide, in properties, as may be seen in the fatty tissue, pigmentary first into two, then four, then eight, then sixteen segments, tissue, and epithelium. Other tissues, again, consist partly and so on.
Each of these segments of protoplasm con of cells, and partly of an intermediate material which sepatains a nucleus—is, in short, a nucleated cell, and the rates the constituent cells from each other. Here also the protoplasm of these cells exhibits the property of con cells present various modifications; and the intermediate tractility. The ovum or germ-cell is therefore the imme- material, termed the matrix or intercellular substance, diate parent of all the new cells which are formed within varies - in structure, in composition, and in properties it, and mediately it is the parent of all the cells which, in the different textures, as is seen in the connective, in the subsequent processes of development and growth, cartilaginous, osseous and muscular tissues
yelk; Y, nucleus, or ger-