Histological changes in atrophied muscles vary somewhat in character in different diseases, and vary much in degree at different periods of the atrophy. An early appearance is the presence of proteinaceous and of fatty granules or molecules in the sarcous substance. Later, the muscular fibres become reduced in size, lose their striation, and show inequalities; the interstitial connective tissue becomes active and increases in amount, at the same time that fat is deposited. The fatty change in some cases, in others the granular or proteinaceous transformation, ultimately completely destroys the muscular substance, so that in the place of a muscle we find abnormal connective and fatty tissues, blood-vessels, fatty and proteinaceous débris, the whole presenting a pale yellowish-white aspect. It is in this final stage of degenerative atrophy that all electrical reactions are lost. In the pseudo-hypertrophic state the interfibrillary and interfascicular connective-tissue growth is much more active, and the wasting muscular fibres are buried in masses of wavy and fatty connective tissue. In this condition also electrical reactions may be wholly absent.

(b) Atrophy due to defective innervation sometimes affects the skin and bones. In the former, after nerve-injuries more especially, we observe loss of thickness, glossiness, and perverted circulation and secretion; the hairs may fall out or grow abnormally; the nails are slow of growth, thick, rugose, incurvated, and brittle. In other cases, as in cerebral and spinal paralyses, the skin of the paralyzed part is abnormally dry, rough, and furfuraceous, and it loses its elasticity. In some varieties of so-called skin diseases the patches of altered nutrition (eczema, bullæ, herpes, psoriasis, leucoderma, scleroderma, etc.) are often, probably, dependent upon nervous lesions.

In the very rare disease known as progressive facial atrophy the skin, subcutaneous areolar tissue, and the bones undergo extreme atrophy. The initial lesion is usually a patch of scleroderma with or without neuralgic phenomena; the skin is thin, darker and smoother than normal; it soon adheres to the subjacent bone (maxilla or zygoma), which itself steadily diminishes in size. Almost the entire half of the face (including the palate and tongue) may ultimately show the atrophic changes. We are not yet prepared to state the causal nerve-lesion in this disease.

The bones are abnormally fragile (fragilitas ossium) in some nervous diseases, more especially in dementia paralytica and posterior spinal sclerosis; but whether this condition is due directly to the nervous disease or is the expression of more general malnutrition is now undecided.

The complex lesions of joints observed in the course of posterior spinal sclerosis, the spinal arthropathies of Charcot, probably belong to this category. The affected joint (knee, shoulder, or ankle) rather suddenly swells, and the swelling usually invades the rest of the member or extends to the next distal joint; it is a hard, semi-elastic swelling unlike common œdema. After its gradual subsidence it is found that changes have taken place in the articulation itself, and later distinct evidences of destructive disease, such as erosion of cartilages, relaxation of ligaments, swelling, are observed. In many cases extra-articular lesions appear in the shape of osteophitic formations from the adjacent bones. The hydrarthrosis may persist or disappear. So complete may be the destruction of the joint that—for example, in a case of arthropathy of the knee—the leg may be twisted about in all directions, and even over-extended so as to lie upon the anterior surface of the thigh. Examination of the joint post-mortem reveals non-suppurative destruction of all its component parts, cartilages, ligaments, and epiphyses; the eroded, deformed ends of the bones rub against one another in a false joint-cavity formed of the skin, connective tissue, tendons, and remains of ligaments. The absence of pain and tenderness in the course of arthropathies is a striking feature—so much so that when, in an adult patient, it is observed that manipulation or puncture of a diseased joint is painless, special inquiry should be made for symptoms of posterior spinal sclerosis.⁷

⁷ We have known one case in which the diagnosis of tabes dorsalis was made (and verified after death) in this way, after the surgeon in charge of the patient had mentioned the fact that puncturing a swollen diseased knee-joint was painless.

(c) Under the head of degenerative atrophies should be included the secondary changes which affect certain nerve-tracts within the nervous system itself. It is impossible in this introduction to treat fully of this interesting category of trophic changes; the following summary must suffice: (1) When the cerebral motor cortex or any part of the associated pyramidal (or motor) tract is destructively injured, there occurs, in from three to six weeks, a degeneration of the whole tract caudad of (below) the brain. The myeline becomes granular and disappears, the cylinder-axes are broken up and vanish, the connective tissue (neuroglia) increases in amount; the atrophied and degenerated area appears in a transection rather translucent in contrast to the pearly white of the normal medullary tissue, and when the preparation is stained with carmine the patch takes up an abnormal amount of pigment. This is the so-called descending degeneration, or centrifugal atrophy of the central nervous system. (2) After total transverse lesions of the spinal cord, besides the above-described centrifugal degeneration caudad of the lesion, we observe frontad of (above) it similar changes in the posterior median columns, and in the direct cerebellar tracts—centripetal degeneration. At present we have no knowledge of centripetal (ascending) degenerations in the cerebrum and in nerve-trunks; and if the results of von Gudden's experimental method be cited against this statement, it must be replied that its effects are best seen in newly-born animals, and that its pathology is yet unknown. (3) Lesions of the anterior gray matter (ventral cornua) of the spinal cord, and of mixed nerve-trunks produce only centrifugal or descending degeneration. All the nerve-fibres deriving their innervation from the injured area in the cord, or in case of nerves all fibres below the injury, perish—i.e. their myeline breaks up and undergoes granular and fatty degeneration, their cylinder-axes are segmented and disappear, while at the same time the connective tissue of the nerve becomes abnormally active and increases. Furthermore, in cases of this category there are, inevitably, degenerative and atrophic changes in the attached muscles, and peculiar electro-muscular reactions (vide supra). All these central and peripheral nervous degenerations, due to a local lesion, are conveniently grouped under the name of Wallerian degeneration.

2. ERUPTIONS AND ULCERATIONS.—(a) The cutaneous eruption about whose nervous origin there is the least doubt is that known as herpes or zona. This manifests itself, with or without paræsthesiæ (pain, itching, formication, etc.), as vesicles upon deeply-inflamed spots of skin distributed in the territory of one or more sensory nerves, and almost always unilaterally. The destructive process in the derma is so profound as to leave scars which are indelible as a rule. In general terms it might be stated that herpes may occur in the range of any sensory nerve distributed to the skin or mucous membranes. The neuralgia attending its development may be severe, and in some cases lasts for years after the healing of the eruption. The pathology of this affection appears to be inflammation of the ganglion of the posterior root of one or more spinal nerves (including the trigeminus and glosso-pharyngeal) or of their trunks. Herpes may appear in the course of spontaneous and traumatic neuritis; and in the last-named conditions a variety of eruptions have been observed in the area supplied by affected nerves, such as eczema, bullæ, etc.

(b) That ulceration may result directly from a nervous lesion is shown by the history of herpes, where a destructive process takes place in the derma under such conditions as to exclude the action of external agencies. But the same cannot be said of the ordinary ulcerations and gangrenous lesions observed in a number of nervous diseases, as the bed-sores of myelitis or of spinal injuries, the ulceration of the cornea in trigeminal anæsthesia, the digital ulcers and gangrene of lepra, asphyxia of the extremities, and nerve-injuries. As regards all these, the proper explanation is, it seems to us, that the anæsthesia existing as a predisposing cause (leading to imperfect protection of the part), the ulceration itself, is directly, actively caused by external agencies. Let me briefly cite a few instructive experimental and pathological facts bearing on this question.

It is well known that in animals and man lesions of the trigeminus nerve sufficient to produce anæsthesia (of its first branch more especially) are frequently, if not invariably, followed by ulceration and perforation of the cornea and phthisis bulbi. These were long held to be true dystropic changes, but about thirty and twenty years ago Snellen and von Gudden demonstrated independently and by different methods that these ocular lesions could be entirely prevented by absolute closure (perfect protection) of the eyelids prior to the experiment on the trigeminus. Not long afterward Brown-Séquard showed that the sloughing ulcers which occur about the foot of an animal whose sciatic nerve has been cut may be entirely prevented by care, cleanliness, and soft bedding. The conclusion to be drawn from these observations is that in almost all cases the ulcerations and sloughing observed in man during the course of a nervous disease sufficient to produce anæsthesia, such as traumatic neuritis, lepra anæsthetica, traumatic or simple myelitis transversa, disease of the trigeminal nerve, etc., are in reality produced by external agencies, injuries to the cuticle, action of filth, and, we think, the entrance of bacteria, which are well known to possess extraordinary powers of penetration into tissues whose protecting epithelial layer is removed. Clinical observation corroborates this view, for, with strict antiseptic treatment and under sealed dressings (collodion to ulcerated finger-tips), these ulcerations heal rapidly and completely, while the anæsthesia remains unchanged and the nervous lesions may even progress. At the same time, while we believe the above to be the pathology of so-called trophic ulcers, we would admit the possibility of spontaneous neuritic ulceration and gangrene, as shown more especially in herpes.