Difference between revisions of "Gland" - New World Encyclopedia

Human submaxillary gland. At the right is a group of mucous alveoli, at the left a group of serous alveoli.

A gland is a collection of cells (tissue) or an organ in an animal's body that, utilizing substances from the blood, produces a newly synthesized or concentrated chemical substance for secretion, either for use by another part of the body or for elimination from the body. For example, it may synthesize a hormone for release into the bloodstream (endocrine gland) or secrete a substance directly into cavities inside the body or its outer surface (exocrine gland). More broadly, the term gland is sometimes used to encompass any collection of cells that secretes a chemical substance, such as plant glands that produce nectar in flowers.

Glands are essentially collections of cells that are working together in harmony, accomplishing a particular function of benefit to the entire body. Each part of a living organism (cells, tissues, glands, etc.), depends upon other parts to do their particular role and keep the organism functioning. This involves dual purposes: While each gland (cell, tissue) is performing actions necessary for its own maintenance, self-preservation, and self-strengthening, it also is performing specific actions that contribute to the health of the body. The body, on the other hand, supports each gland and its individual purpose by providing nutrients, oxygen, and other necessary materials, and by transporting away the toxic waste materials.

Glands can be divided into two groups:

• Endocrine glands. Exocrine glands are those that secrete their product directly into the blood rather than through a duct (ductless glands). This group contains the glands of the endocrine system, such as the hypothalamus, pituitary gland, thyroid gland, adrenal gland, and pancreas.
• Exocrine glands. Exocrine glands are those that secrete their products into ducts (duct glands) or directly onto the exterior surface (not through the bloodstream). Typical exocrine glands include sweat glands, salivary glands, mammary glands, and many glands of the digestive system.

Some glands have dual functions. The pancreas, for example, has both an endocrine function, in releasing hormones, and an exocrine function, in releasing digestive enzymes. Other glands that secrete both a chemical substance through a duct and a different chemical substance directly into the blood include the liver, ovary, and testis.

Formation

Every gland is formed by an ingrowth from an epithelial surface. This ingrowth may from the beginning possess a tubular structure, but in other instances glands may start as a solid column of cells that subsequently becomes tubulated.

As growth proceeds, the column of cells may divide or give off offshoots, in which case a compound gland is formed. In many glands, the number of branches is limited; in others (salivary, pancreas), a very large structure is finally formed by repeated growth and sub-division. As a rule, the branches do not unite with one another, but in one instance, the liver, this does occur when a reticulated compound gland is produced. In compound glands, the more typical or secretory epithelium is found forming the terminal portion of each branch, and the uniting portions form ducts and are lined with a less modified type of epithelial cell.

Glands are classified according to their shape.

• If the gland retains its shape as a tube throughout it is termed a tubular gland.
• In the second main variety of gland, the secretory portion is enlarged and the lumen variously increased in size. These are termed alveolar or saccular glands.

Endocrine glands

Endocrine glands secrete their product directly onto a surface rather than through a duct. The human body contains several endocrine glands and cells that secrete hormones that carry out certain functions. The main glands in humans are the pineal gland, hypothalamus, pituitary gland, thyroid gland, parathyroid gland, adrenal gland, pancreas, and the reproductive glands (ovaries in women and testes in men).

Endocrine glands make up part of the endocrine system, which also includes hormones, and target cells as the three main elements.

Other organs of the body also produce and secrete hormones, but are generally not considered part of the endocrine system; these include the heart, kidney, liver, thymus, skin, and placenta. Sometimes the thymus gland and the kidney are included as part of the endocrine system, and the pineal gland sometimes is not included.

Greater detail on endocrine glands can be assessed here and a list of endocrine glands is available here.

Exocrine glands

Exocrine glands release their secretions through ducts into the external environment (Silverthorn 2004), or directly onto the exterior surface or an area contiguous with the exterior surface, not utilizing the blood to deliver the product. They include such glands as the salivary glands, sweat glands, and glands within the gastrointestinal tract. Most utilize ducts, but some glands classified as exocrine glands, such as the digestive glands in the intestine and the sebaceous glands of the skin, actually open directly on the body surface.

The chemical substance released by exocrine glands can include sweat, digestive enzymes, tears (through tear ducts), and even silk from spiders or silkworm larvae.

There are multiple ways of classifying exocrine glands:

Structure. Exocrine glands contain a glandular portion and a duct portion, the structures of which can be used to classify the gland.

• The duct portion may be branched (called compound) or unbranched (called simple).
• The glandular portion may be tubular, acinar, or may be a mix of the two (called tubuloacinar). If the glandular portion branches, then the gland is called a branched gland.

Method of secretion. Exocrine glands are named apocrine, holocrine gland, or merocrine gland based on how their product is secreted.

• Apocrine glands. In apocrine glands, a portion of the plasma membrane buds off the cell, containing the secretion, such that a portion of the secreting cell's body is lost during secretion. Apocrine gland is often used to refer to the apocrine sweat glands, however it is thought that apocrine sweat glands may not be true apocrine glands as they may not use the apocrine method of secretion.
• Holocrine glands. In holocrine glands, the entire cell disintegrates to secrete its substance (e.g., sebaceous glands).
• Merocrine glands - In merocrine glands, cells secrete their substances by exocytosis (e.g., mucous and serous glands). Also called "eccrine."

Product secreted

• Serous glands. Serous glands secrete a watery, often protein-rich and often enzymes. Examples include chief cells and Paneth cells.
• Mucous glands. Mucous glands secrete a viscous product, rich in carbohydrates (eg. glycoproteins). Examples include Brunner's glands, esophageal glands, and pyloric glands.
• Mixed glands. Mixed glands secrete both protein and mucus. Examples include the salivary glands, although parotid gland is predominantly serous, and sublingual gland is predominantly mucous.
• Sebaceous glands. Sebaceous glands secrete a lipid product.

Types of exocrine glands

Glands typically may be referred to by two or more means, though some terms are rarely seen. The names of the anatomists who first described them are often employed.

Additional images

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  Section of the human esophagus. Moderately magnified.

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  Dissection of a lactating breast.

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  Section of submaxillary gland of kitten. Duct semidiagrammatic.

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  Section of pancreas of dog. X 250.

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  Dissection of a lactating breast.

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  Section of portion of mamma.

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  Apocrine

References

ISBN links support NWE through referral fees

• This article incorporates text from the Encyclopædia Britannica Eleventh Edition, a publication now in the public domain.
• Howat, H. T., and H. Sarles. 1979. The Exocrine Pancreas. Philadelphia: Saunders. ISBN 0721647790.
• Silverthorn, D. 2004. Human Physiology, An Integrated Approach (3rd Edition). San Francisco, C.A.: Benjamin Cummings. ISBN 0131020153.