Introduction and Phases of Mensuration

Menstruation is the discharge of blood and mucus from the inner lining of the non-pregnant uterus on a regular basis. The discharge occurs through the vagina. Except during pregnancy, it is controlled by hormones and recurs at regular intervals of 28 days. Menstruation lasts from menarche through menopause.

Mechanism of Menstruation or Menstrual Cycle

The menstrual cycle is the cyclic process of menstruation that provides the preparation for pregnancy. If pregnancy does not occur, the endometrium degenerates and the cycle recommences. It happens every 28-30 days on average, although it can happen every 21-42 days.

This cycle involves three major organs. To complete a menstrual cycle, each organ has its own cycle.

1. Pituitary Gland
2. Ovary
3. Uterus

The Pituitary Gland

The hypothalamus is responsible for the release of luteinizing hormones. The anterior pituitary gland is stimulated to secrete:

1. Follicle-stimulating hormones (FSH) stimulate ovarian follicle maturation and estrogen release, resulting in ovulation. It grows until ovulation, then progressively decreases.
2. Luteinizing hormone (LH) increases corpus luteum formation and progesterone release. The hormone made the endometrium thick, vascular, and spongy.

Changes in hormone concentrations in the blood induce FHS and LH secretion. A negative feedback mechanism regulates hormones released during the cycle.

The Ovarian Cycle

One or more ovules will be liberated at the same moment as a result of hormonal stimulation under the impact of FHS. The ovary produces estrogen and progesterone, which thickens, vascularizes, and specifies the endometrium, which is lost during menstruation. Each ovary ovulates every two months. Under the action of LH, the surviving membrane granulosa cells multiply.

The Uterine Cycle or Menstrual Cycle

The menstrual cycle is the time between the first and second menstruation. The menstrual cycle is a set of events that occur at regular intervals over a period of around 28 days and are divided into three parts.

• The proliferative phase: 10 days
• The secretory phase: 14 days
• The menstrual phase: 4 days

The Proliferative Phase

This stage begins at the end of the menstrual cycle. The anterior lobe of the pituitary gland secretes FSH during this phase. This hormone helps the primordial follicle develop and mature into the Graafian follicle. Normally, only one ovum develops and matures during this period, but two or more may do so.

During this time, the ovary secretes estrogen. This hormone enters the bloodstream directly and has an effect on the endometrium, driving columnar cells to duplicate the endometrium more quickly, generating a thicker lining and increasing the number of glands and blood capillaries, making the lining more vascular and spongy. This phase can last up to ten days beginning on the fourth day of the previous menstruation. By the end of this phase, the endometrium is 2-3 mm thick.

When an ovum matures, the follicle ruptures and the ovum enters the peritoneal cavity due to the high level of luteinizing hormone. Ovulation is the release of the ovum from the follicle. When ovulation occurs, this phase ends and the secretory phase begins.

The Secretory Phase

The phase begins after ovulation and lasts approximately two weeks or fourteen days. The pituitary glands begin secreting the second gonadotrophin, the luteinizing hormone, immediately after ovulation.

This hormone causes the remaining ovarian follicle cells to form the corpus luteum or yellow body. Under the influence of the luteinizing hormone, the corpus luteum begins to secrete progesterone, the second ovarian hormone.

Progesterone is taken straight into the bloodstream and acts on the endometrium, supplementing the activity of estrogen. It causes the lining to thicken, even more, the endometrial glands to get larger and more convoluted, stores a huge amount of glycogen, increases blood capillaries, and initiates the secretory activity. The gland produces more secretion, which is then discharged into the uterine cavity.

The endometrium is now thick, soft, moist, vascular, and densely packed with blood vessels, and it is ready to receive a fertilized egg. The thickness of the endometrium is 4-6 mm.

If the ovum is fertilized, there is no endometrial breakdown and no menstrual flow. As a result, the endometrium is now known as decidua. The fertilized ovum embeds itself into the endometrium and produces a hormone called human chorionic gonadotrophin hormone, which maintains the corpus luteum's integrity and allows it to continue secreting progesterone. Menstrual bleeding develops if the ovum is not fertilized.

The Menstrual Phase

If the ovum is not fertilized, the high quantity of progesterone in the blood inhibits pituitary gland activity and significantly reduces LH production. Withdrawal of this hormone causes shrinkage and degeneration of the corpus luteum, resulting in decreased progesterone production. Menstrual bleeding is caused by the deterioration and breakdown of the uterine inner lining. It has blood, inner lining cells, and an unfertilized ovum. This lasts approximately 4-6 days. The usual amount of blood flow throughout each cycle is 60-90 ml.

When the progesterone level in the blood falls below a particular threshold, the pituitary gland resumes secretion of the follicle-stimulating hormone. The cycle is restarted when another ovarian follicle is activated.

References

• Web MD. 2005. 2017 http://www.webmd.com/baby/guide/understanding-conception#1
• Medline Plus. 05 January 2017 https://medlineplus.gov/menstruation.html
• MedicineNet. 1996. 2017 http://www.medicinenet.com/trying_to_conceive/article.htm
• Tuitui R. 2002, A textbook of Midwifery A (Antenatal), 3rd edition, Vidyarthi Pustak Bhandari (Publisher and Distributor), Bhotahity, Kathmandu
• Tuitui R., Suwal, S.N. 2001, Human anatomy and physiology, first edition, Makalu Books and stationers, Putalisadak, Kathmandu
• WHO, UNFPA, UNICEF, 2003. Pregnancy, childbirth, Postpartum and Newborn care (PCPNC): A guide for essential practice, “IMPAC” World bank.