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THE INTEGUMENTARY SYSTEM


Learning Objective

Identify skin, its functions, structure, and appendages.


Organ systems are comprised of tissues grouped together to form organs, and groups of organs with specialized functions. Since the skin acts with hair follicles, sebaceous glands, and sweat glands, these organs together constitute the integumentary system.

SKIN FUNCTION

The skin covers almost every visible part of the human body. Even the hair and nails are outgrowths from it. It protects the underlying structures from injury and invasion by foreign organisms; it contains the peripheral endings of many sensory nerves; and it has limited excretory and absorbing powers. The skin also plays an important part in regulating body temperature. In addition, the skin is a waterproof covering that prevents excessive water loss, even in very dry climates.

SKIN STRUCTURE

The skin, or integument, consists of two layers, the epidermis and the dermis, and supporting structures and appendages (Fig. 1).

Figure 1.—Diagram of skin structure. A, Thick skin, found on surfaces of the palms and soles of the feet. B, Thin skin, found on most surface areas of the body. In each diagram, the epidermis is raised at one corner to reveal the papillae of the dermis

Image reprinted  from: Thibedeau, G. A., & Patton, K. T. (2006). Anatomy & Physiology (6th ed.). St. Louis: Elsevier Health Sciences.

Epidermis

The epidermis is the outer skin layer (Fig. 1). It is made up of tough, flat, scale-like epithelial cells. Five sub-layers or strata of epidermal cells have been identified, and, listed from superficial to deep, they are the stratum corneum, stratum lucidum (not always present), stratum granulosum, stratum spinosum, and stratum basale.

Dermis

The dermis, or true skin, lies below the epidermis and gradually blends into the deeper tissues (Fig.1). It is a wide area of connective tissue that contains blood vessels, nerve fibers, smooth muscles, and skin appendages.

Blood Vessels.—The blood vessels of the dermis can dilate to contain a significant portion of the body's blood supply (Fig. 1). This ability, along with the actions of the sweat glands, forms the body's primary temperatureregulating mechanism. The constriction or dilation of these blood vessels also affects blood pressure and the volume of blood available to the internal organs.

Nerve Fibers.—The skin contains two types of nerve fibers, motor and sensory, that carry impulses to and from the central nervous system (Fig. 1). The nerve fibers are distributed to the smooth muscles in the walls of the arteries in the dermis and to the smooth muscles around the sweat glands and hair roots. The motor nerve fiber carries impulses to the dermal muscles and glands, while the sensory type carries impulses from sensory receptors (i.e., detecting touch). Both nerve fibers send messages about the external environment to the brain.

Smooth Muscles.—Smooth involuntary muscles are found in the dermis. They are responsible for controlling the skin surface area. When dilated, these muscles allow for maximum skin surface exposure to aid heat loss. When constricted, the skin surface exposure is decreased, thus impeding heat radiation. Repeated muscle contractions (shivering) are also a rapid means of generating body heat.

Figure 1.—Diagram of skin structure. A, Thick skin, found on surfaces of the palms and soles of the feet. B, Thin skin, found on most surface areas of the body. In each diagram, the epidermis is raised at one corner to reveal the papillae of the dermis  Note: The figure is repeated here for your convenience.

NOTE: Figure 1 is repeated here for your convenience.

Image reprinted  from: Thibedeau, G. A., & Patton, K. T. (2006). Anatomy & Physiology (6th ed.). St. Louis: Elsevier Health Sciences.

Skin Appendages

The appendages of the skin are the nails, hairs, sebaceous glands, sweat glands, and ceruminous glands.

Nails.—The nails are composed of horny epidermal scales and are found on the dorsal surfaces of the fingers and toes. They protect the many sensitive nerve endings at the ends of these digits. New formation of a nail will occur in the epithelium of the nail bed. As it is formed, the whole nail moves forward becoming longer.

Hair.—Hair is an epithelial structure found on almost every part of the surface of the body (Fig. 1). Its color depends on the type of melanin present. The hair has two components: the root below the surface and the shaft projecting above the skin. The root is embedded in a pit-like depression called the hair follicle. Hair grows as a result of the division of the cells of the root. A small muscle, known as the arrector (Fig. 1), fastens to the side of the follicle and is responsible for the gooseflesh appearance (goose bumps) of the skin as a reaction to cold or fear. Each hair follicle is associated with two or more sebaceous glands.

Sebaceous Glands.—Sebaceous glands are found in most parts of the skin except in the soles of the feet and the palms of the hand (Fig. 1). Their ducts open most frequently into the hair follicles and secrete an oily substance that lubricates the skin and hair, keeping them soft and pliable and preventing bacterial invasion.

Sweat Glands.—Sweat glands are found in almost every part of the skin (Fig. 1). They are a control mechanism to reduce the body's heat by evaporating water from its surface. The perspiration secreted is a combination of water, salts, amino acids, and urea. Normally, about one liter of this fluid is excreted daily. However, the amount varies with atmospheric temperature and humidity and the amount of exercise. When the outside temperature is high, or upon exercise, the glands secrete large amounts of perspiration to cool the body through evaporation. When evaporation does not remove all the sweat that has been excreted, the sweat collects in beads on the surface of the skin.

Ceruminous Glands.—Ceruminous glands are modified sweat glands found only in the auditory canal. They secrete a yellow waxy substance called cerumen that protects the eardrum.


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David L. Heiserman, Editor

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Revised: June 06, 2015