Mammogen

Mammogen is a medical term used to describe a substance that stimulates milk production in the mammary glands. This substance can be used to treat hypogalactia, a condition in which a woman does not have enough milk to feed her baby.

Mammogen was discovered in the 1970s and has since become one of the most popular treatments for hypogalactia. It works by stimulating prolactin receptors in the mammary glands, resulting in increased milk production.

There are several forms of mammogen, including synthetic drugs and natural remedies. Synthetic drugs include oxytocin, vasopressin and other hormones that stimulate milk production. Natural remedies may include herbs such as anise, fennel and cumin, as well as foods such as milk and yogurt.

The use of mammogen is a safe and effective method of treating hypogalactia, but its effectiveness may vary depending on the individual characteristics of the woman’s body. Therefore, before using mammogen, you should consult your doctor.

Mammogenesis is a sequential sequence of biological processes that cause the development and maturation of the mammary gland in the female body. The purpose of this article is to describe modern theories and concepts of mammogenesis based on literature data.

During intrauterine development, the female embryo receives the necessary nutrients and hormones from the mother. At the beginning of the second trimester of pregnancy, it begins to synthesize its own estrogen and progesterone. Their level affects breast cells, stimulating the growth and development of milk ducts. In addition, under the influence of estrogen, fat cells begin to differentiate into breast cells, which will subsequently become the basis of the mammary gland.

The ducts of the mammary gland form a specific structure called alveoli. These are small bubbles filled with the secretion of the mammary glands - milk. As they develop, they form lobules, which together form the mammary gland. At the 8th week of pregnancy, genes responsible for the synthesis of transcription factors, such as myocin and brotenin, are activated, which determine the formation of lobules - structures that form the basis of the mammary glands. The lobules are formed due to the migration of epithelial cells from the ducts, as well as interstitial tissue into the space between the lobules. At the same time, epithelial cells acquire properties characteristic of adipocytes: they are able to synthesize large amounts of cholesterol associated with triglycerides. After the start of its functioning, the mammary gland continues to grow and develop along with the growth of the child, but after reaching a body weight of approximately 3 kg, the growth of the mammary gland stops. On