eBook - ePub

Equine Dermatology - E-Book

Name: Equine Dermatology - E-Book
Author: Danny W. Scott, William H. Miller

Danny W. Scott, William H. Miller

552 pages
English
ePUB (adapté aux mobiles)
Disponible sur iOS et Android

eBook - ePub

Equine Dermatology - E-Book

Danny W. Scott, William H. Miller

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À propos de ce livre

Diagnose, treat, and manage equine skin disorders with the most comprehensive reference available! With 900 full-color photos, Equine Dermatology covers skin diseases ranging from those that merely annoy the horse to others that interfere with the horse's ability to function in riding, working, or show. Thorough coverage includes essential basics and practical diagnostic methods, therapies, and specific abnormalities and defects. The book describes the structure and function of the skin, and discusses disorders including bacterial, fungal, parasitic, viral, protozoal, allergic, immune-mediated, endocrine, metabolic, and nutritional diseases. It also covers congenital and hereditary defects, pigmentation abnormalities, keratinization defects, environmental skin diseases, and skin tumors. Written by renowned equine dermatologists Danny Scott and Bill Miller, this all-inclusive resource covers the latest dermatologic topics and the newest therapies.

Current, comprehensive coverage includes every known equine dermatosis.
An emphasis on differential diagnosis includes key differentials and breed predilections for each disease, especially helpful when you have only a specimen and an incomplete history to work with.
A consistent format makes it easy to locate information on each skin disorder, including a clinical description, its cause and pathogenesis, clinical features, clinical management, diagnosis, treatment, and any zoonotic aspects.
Expert authors Danny W. Scott, DVM, and William H. Miller, Jr., VMD, offer years of knowledge, experience, and their vast image collections.
Diagnostic tables in each chapter provide a quick reference for identifying lesions and disorders.
An extensive list of references at the end of each chapter includes recommendations for further reading.

New coverage of dermatologic conditions includes the latest topics and emerging disorders such as chronic progressive lymphedema, herpesvirus-2-associated dermatitis, salmonella-associated dermatoses, and nodular auricular chondropathy.
Updated Diagnostic Methods chapter covers multiple methods of developing a differential diagnosis list based on breed, lesion type, patterns, and location.
A focus on common clinical problems highlights the conditions most likely to be seen in practice.
Almost 1, 000 full-color photos of skin disorders make it easy to distinguish clinical characteristics and variations of normal and abnormal for accurate diagnosis and therapy.

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Informations

Éditeur

Saunders

Année

2010

ISBN

9781437709216

Édition

Sujet

Médecine

Sous-sujet

Sciences vétérinaires équines

CHAPTER 1 Structure and Function of the Skin

The skin is the largest and most visible organ of the body and the anatomic and physiologic barrier between animal and environment. It provides protection from physical, chemical, and microbiologic injury, and its sensory components perceive heat, cold, pain, pruritus, touch, and pressure. In addition, the skin is synergistic with internal organ systems and thus reflects pathologic processes that are either primary elsewhere or shared with other tissues. Not only is the skin an organ with its own reaction patterns, it reflects the milieu intérieur and, at the same time, the capricious world to which it is exposed.

General functions and properties of the skin

The general functions of animal skin are as follows:^73,⁹²

1. Enclosing barrier. The most important function of skin is to make possible an internal environment for all other organs by maintaining an effective barrier to the loss of water, electrolytes, and macromolecules.

2. Environmental protection. A corollary function is the exclusion of external injurious agents—chemical, physical, and microbiologic—from entrance into the internal environment.

3. Motion and shape. The flexibility, elasticity, and toughness of the skin allow motion and provide shape and form.

4. Adnexa production. Skin produces glands and keratinized structures such as hair, hoof, and the horny layer of the epidermis.

5. Temperature regulation. Skin plays a role in the regulation of body temperature through its support of the hair coat, regulation of cutaneous blood supply, and sweat gland function.

6. Storage. The skin is a reservoir of electrolytes, water, vitamins, fat, carbohydrates, proteins, and other materials.

7. Indicator. The skin may be an important indicator of general health, internal disease, and the effects of substances applied topically or taken internally. It contributes to physical and sexual identity.

8. Immunoregulation. Keratinocytes, Langerhans cells, lymphocytes, and dermal dendrocytes together provide the skin with an immunosurveillance capability that effectively protects against the development of cutaneous neoplasms and persistent infections.

9. Pigmentation. Processes in the skin (melanin formation, vascularity, and keratinization) help determine the color of the coat and skin. Pigmentation of the skin helps prevent damage from solar radiation.

10. Antimicrobial action. The skin surface has antibacterial and antifungal properties.

11. Sensory perception. Skin is a primary sensory organ for touch, pressure, pain, itch, heat, and cold.

12. Secretion. Skin is a secretory organ by virtue of its epitrichial sweat glands and sebaceous glands.

13. Excretion. The skin functions in a limited way as an excretory organ.

Ontogeny

Skin is a complex multicellular organ in which endoderm, neural crest, and ectoderm contribute to form a three-dimensional unit in a spatially and temporally defined manner. Skin morphogenesis involves the action of multiple genes in a coordinated fashion. Homeobox genes are a gene family that encode information critical for normal embryologic development and that likely play an important role in the development of skin adnexa, pigment system, and stratified epithelium during embryogenesis.

Epithelial-mesenchymal interactions regulate tissue homeostasis, the balanced regulation of proliferation and differentiation maintaining normal tissue architecture and function. Multiple circuits of reciprocal permissive and instructive effects exist between epithelial and mesenchymal cells and extracellular matrices.

To the authors’ knowledge, the ontogeny of equine skin has not been reported. The following discussion is an amalgamation of information from other domestic mammals and humans.^34,^36,^89,⁹¹

Initially, the embryonic skin consists of a single layer of ectodermal cells and a dermis containing loosely arranged mesenchymal cells embedded in an interstitial ground substance. The ectodermal covering progressively develops into two layers (the basal cell layer, or stratum germinativum, and the outer periderm), three layers (the stratum intermedium forms between the other two layers), and then into an adultlike structure. Melanocytes (neural crest origin) and Langerhans cells (bone marrow origin) become identifiable during this period of ectodermal maturation.

Dermal development is characterized by an increase in the thickness and number of fibers, a decrease in ground substance, and the transition of mesenchymal cells to fibroblasts. This process of building a fiber-rich matrix has been referred to as a “ripening” of the dermis. Elastin fibers appear later than do collagen fibers. Histiocytes, Schwann cells, and dermal melanocytes also become recognizable. Fetal skin contains a large percentage of Type III collagen compared with the skin of an adult, which includes a large proportion of Type I collagen. Lipocytes (adipocytes, fat cells) begin to develop into the subcutis from spindle-shaped mesenchymal precursor cells (prelipoblasts) in the second half of gestation.

The embryonal stratum germinativum differentiates into hair germs (primary epithelial germs), which give rise to hair follicles, sebaceous glands, and epitrichial (apocrine) sweat glands. Hair germs initially consist of an area of crowding of deeply basophilic cells in the basal layer of the epidermis. Subsequently, the areas of crowding become buds that protrude into the dermis. Beneath each bud lies a group of mesenchymal cells, from which the dermal hair papilla is later formed.

As the hair peg lengthens and develops into a hair follicle and hair, three bulges appear. The lowest (deepest) of the bulges develops into the attachment for the arrector pili muscle; the middle bulge differentiates into the sebaceous gland; and the uppermost bulge evolves into the epitrichial sweat gland. In general, the first hairs to appear on the fetus are vibrissae and tactile or sinus hairs that develop on the chin, eyebrows, and upper lip as white, slightly raised dots on otherwise smooth, bare skin. The general body hair appears...