What sweat glands are found in the axillary region?

What sweat glands are found in the axillary region?

Apocrine glands are found in the axillary, inguinal, perineal, and perianal regions and are associated with hair follicles. Apocrine glands are stimulated by pain or sexual arousal to secrete an odorless fluid which subsequently becomes malodorous after interaction with skin flora.

What are sweat glands also called?

Sudoriferous glands, also known as sweat glands, are either of two types of secretory skin glands, eccrine or apocrine. Eccrine and apocrine glands reside within the dermis and consist of secretory cells and a central lumen into which material is secreted.

What are the 3 types of sweat glands?

Humans have three different types of sweat glands: eccrine, apocrine, and apoeccrine.

Where is apocrine sweat glands located?

Most apocrine glands in the skin are in the armpits, the groin, and the area around the nipples of the breast. Apocrine glands in the skin are scent glands, and their secretions usually have an odor. Another type of gland (eccrine gland or simple sweat gland) produces most sweat.

What glands are known as sweat glands quizlet?

Sweat glands, also known as sudoriferous or sudoriparous glands, from Latin sudor, meaning “sweat”, are small tubular structures of the skin that produce sweat. Sweat glands are a type of exocrine gland, which are glands that produce and secrete substances onto an epithelial surface by way of a duct.

What is merocrine sweat glands?

Merocrine sweat glands are coiled tubular glands that discharge their secretions directly onto the surface of the skin. The clear secretion produced by merocrine glands is termed sweat, or sensible perspiration. Sweat cools the surface of the skin and reduces body temperature.

What is Ceruminous?

Medical Definition of ceruminous : relating to or secreting earwax.

What are the four types of sweat glands?

There are four types of glands in the integumentary system: sudoriferous (sweat) glands, sebaceous glands, ceruminous glands, and mammary glands. These are all exocrine glands, secreting materials outside the cells and body. Sudoriferous glands are sweat producing glands.

What is the difference between apocrine and merocrine sweat glands?

The key difference between merocrine and apocrine sweat glands is that merocrine sweat glands excrete sweat directly onto the surface of the skin opening out through the sweat pore while apocrine sweat glands secrete sweat into the pilary canal of the hair follicle without opening directly onto the surface of the skin.

Where are apocrine sweat glands located quizlet?

-location: Largely confined to the axillary and genital areas of the body. Also distributed in the dermis of the skin. -structure: Apocrine glands are usually larger than eccrine glands and their ducts are secreted into hair follicles instead of pores.

What is the name of the glands that produce sweat?

Sweat glands, also known as sudoriferous or sudoriparous glands, from Latin sudor, meaning ‘sweat’, are small tubular structures of the skin that produce sweat.

Is it safe to remove axillary sweat glands?

Removal of axillary sweat glands via tumescent lipo- suction, properly performed, is a safe and effective technique. It is important to follow proper sterile sur- gical technique when performing this procedure. Der- matologists using this method should be accomplished with traditional body, face, and neck liposuction.

Are there any areas that do not have sweat glands?

Exceptions are the vermillion border of the lips, external ear canal, nail beds, glans penis, clitoris, and labia minora, which do not contain sweat glands. Thick skin covers the palms, soles, and corresponding surfaces of the fingers and toes.

Where do sweat glands enter the hair follicle?

The canals of these apocrine sweat gland ducts enter the hair follicle superficial to the sebaceous gland, which results in a protein-rich sweat rather than the watery sweat associated with eccrine sweat glands. Sweat gland lesions generally have variable apocrine or eccrine differentiation.