Molly Sweat Glands are a group of glands located on the scalp and face of a person. They play an important role in regulating body temperature, as well as protecting the body from infections and other harmful factors.
History of the discovery of Moll's sweat glands
Molly's sweat glands were first described in 1882 by the Dutch ophthalmologist and anatomist Joseph Alfred Molly. He studied human anatomy and discovered that there are special glands on the scalp and face that secrete sweat.
Functions of Moll Sweat glands
The main function of Moll's sweat glands is to regulate body temperature. When the ambient temperature rises, the Molly glands begin to secrete sweat, which cools the skin and prevents the body from overheating.
In addition, Molly sweat glands play an important role in protecting the body from various infections. Sweat contains antimicrobial agents that help protect the skin from bacteria and viruses.
How does Molly sweat gland work?
Molly The sweat gland consists of two parts: secretory and exocrine. The secretory part secretes sweat, and the exocrine part is responsible for its distribution over the surface of the skin.
When the ambient temperature rises, the secretory part of the Moll sweat gland begins to secrete sweat. Sweat is released through special pores on the skin, which open when the temperature rises.
Sweat contains antimicrobial agents and other components that help protect the body from infections. In addition, sweat helps cool the skin and prevent the body from overheating.
- Moll The glands are an anatomical structure in our body that plays an important role in regulating our body temperature.
- Milk fluids are known for their protective properties, preventing frostbite in winter or excessive heat in summer. “They release a very pungent chemical called transferrin onto the surface of our bodies.” - The most important thing is that this fluid is not simply the result of protein catabolism, but is secreted from the pituitary gland and stored in the secretory papillary body of the brain, from where it slowly spreads through other glandular ducts.