Apocrine glands are larger sweat glands found in the axillae (armpits) and around the genital area. They produce a thicker secretion that can be affected by emotional stress and hormonal changes, leading to body odor.
Sweat
Apocrine sweat glands are inactive until they are stimulated by hormonal changes in puberty. Apocrine sweat glands are mainly thought to function as olfactory pheromones, chemicals important in attracting a potential mate. The stimulus for the secretion of apocrine sweat glands is adrenaline, which is a hormone carried in the blood.According to another suggestion, apocrine sweat glands were developed in the earliest period of human evolution via natural selection as a means of defence from predators as a warning signal, and that is why these glands are activated in the moments of emotional or physical stress.
No, apocrine glands are not distributed over almost the entire body surface. They are primarily found in specific areas such as the armpits, groin, and around the nipples. In contrast to eccrine glands, which are more widespread and help regulate body temperature, apocrine glands are associated with hair follicles and are activated during stress or emotional situations.
Apocrine glands do not primarily contribute to thermoregulation; their main function is to produce a thicker, milky secretion that is associated with scent and emotional responses. Thermoregulation is mainly managed by eccrine glands, which secrete a watery fluid to cool the body through evaporation. While apocrine glands can produce sweat in response to stress or hormonal changes, they are not involved in the body's cooling process like eccrine glands are.
Both endocrine and apocrine sweat glands are found in the armpit. Apocrine sweat glands are found almost everywhere, while endocrine glands are found in the genetial region and the auxillary region.
Yes, apocrine sweat glands are generally considered unimportant in thermoregulation. These glands primarily produce a thicker, odoriferous sweat in response to emotional stimuli or stress, rather than heat. In contrast, eccrine sweat glands play a crucial role in thermoregulation by producing a watery sweat that helps cool the body through evaporation. Thus, apocrine glands do not significantly contribute to temperature control.
apocrine glands
The glands of the skin, or the integumentary glands, include apocrine and eccrine sweat glands, and sebaceous glands that secrete sebum, or skin oil.
apocrine sudoriferous gland; Apocrine glands start to function at puberty under the influence of androgens, their activity is increased by sexual foreplay, and they enlarge and recede with the phases of a women's menstrual cycle.
No. Apocrine glands are not sebaceous glands. They are specialized sweat glands.
scent glands