Uteropacicular Duct

The uteropacicular ducts are a system of canals that connect the uterus and ovary to the bladder and vagina. They play an important role in regulating the menstrual cycle and egg fertilization.

The utero-saccal duct consists of two main parts: the uterine part and the sac part. The uterine part is located inside the uterus and connects to the ovary via the fallopian canal. The pouch part is located outside the uterus and is connected to the bladder through the ureter.

During the menstrual cycle, the utero-sac duct plays an important role in releasing the egg from the ovary and transporting it to the uterus. At the beginning of the cycle, the uterus fills with blood and becomes loose, which allows the egg to move freely through the uterine canal. After ovulation, the egg enters the sac and begins to develop within a few days.

In the event of fertilization, the utero-sacal duct transports the fertilized egg to the uterus, where it attaches to the uterine wall and begins to grow. If fertilization does not occur, the utero-sacal duct secretes a mucous membrane that closes the opening of the sac and prevents sperm from entering the uterine cavity.

In addition, the utero-pouch duct also plays an important role in maintaining normal hormone levels in a woman’s body. For example, progesterone, which is produced in the ovaries, is transmitted through the utero-pouch duct into the uterus, where it stimulates the development of the endometrium and prepares the uterus for the implantation of a fertilized egg.

The utero-pouch duct (ductus uterovesicalis) is a paired canal connecting the uterine cavity with the bladder. It is one of the main elements of the genitourinary system in women. Its functions include storing and maintaining menstrual fluid, as well as evacuating it into the bladder for subsequent urination.

The anatomy of the utero-pouch duct has its own characteristics. First, it is located in the pelvic area, where the uterus is located next to the bladder and rectum. This node significantly influences the position of the uterus and its interaction with surrounding structures. Secondly,