Estrogens are part of several hormones, namely estrone (E1), estradiol (E2) and estriol (E3), which have a significant impact on the female regeneration tract integrated into its improvement, development and conceptual capacity. Hormones are the endocrine scaffold of the body. These are individuals who are responsible for the administration of substances capable of directing much of the typical classical body forms we underestimate, e.g. As temperature control, control of circulatory tension (homeostasis), maturity and sexual desires.
The oestrus cycle comes from the Latin oestrus and means "free for all, gadfly", from the greek oysters "gadfly, breeze, sting, raging motivation". It causes the cyclic physiological changes caused by regenerative hormones in most female mammals. The oestrus cycles begin after puberty in the explicitly developed females and are hampered by pregnancies or anesthetic stages that represent periods of sexual inertia between hatching periods.
The main producers of estrogen are the ovaries and the placenta, a transient organ that supports the embryo and filters the child's waste. In small amounts, it is also produced by placentas of pregnant women, liver, adrenal glands and breasts. In humans, some testicle cells produce a low level of estrogen. The estrogen levels in the circulation are particularly noted during ovulation or the time of egg production and after the female cycle, when the corpus luteum or new tissue replaces the empty egg follicle.
Estrogen affects the ovaries, the vagina, the tubes of the fallopian tubes, the uterus and the thoracic organs. Estrogen in the ovaries helps to strengthen the pituitary gland of the brain to release the hormones that cause the formation of follicles, and then to stimulate the development of the ovarian follicle. When the egg is discharged, it passes through the fallopian tubes to the uterus. In the fallopian tubes, however, estrogen is the solid and thick divisor and for samples that carry both the egg and the sperm.
In young warm-blooded animals, the uterus does not get by without estrogen. Once estrogen is produced and then discarded, it indicates tissue degeneration. Estrogens form a mucous film of the uterus, the endometrium. They can increase the weight of the endometrium, the number of cells, the cell types, the blood flow, the protein and the movement of the compounds. Estrogen additionally invigorates the muscles of the uterus to produce and maintain them; These withdrawals are an essential part of the evacuation of dead tissue during the female cycle and labor like the placenta.
The cervix, which is at the end of the uterus, invades the vagina and estrogen is believed to be responsible for the genesis, current guidelines and thickness of the mucus emissions used. to improve the transport of sperm. The lines increase the likelihood of pregnancy. It is believed that estrogen is responsible for how a vagina reaches its adult size, as well as for the thickening of vaginal septa, the expansion of the vagina, and the production of caustic burns that alleviate bacterial contamination in adult women.
In breasts, estrogen activities are closely related to those of various hormones, and their absolute centrality is not fully understood. It is known that they are responsible for the development of the breasts at immaturity, the pigmentation of the areolae and the inevitable end of the progression of the milk.
Estrogen is responsible for the auxiliary contrasts between male and female bodies. The smallest and shortest bones, the larger pelvis for the work and the smaller shoulders. The woman's body becomes more and more bent due to the fatty tissue covering the muscles, breasts, back, hips, and thighs. The hairs of the scalp have different contrasts, which usually last longer and thus reduce the likelihood that the hair collapses in women. The body hair is better and less dull. Besides, estrogen suppresses the action of sebum-supplying organs that reduce the likelihood of skin split in women.
In men, there are traces of estrogen in the blood and the piss, especially in adolescence and middle age. Their ability in humans and their interaction with male hormones are not fully understood.