Changes in the Endocrine System during Pregnancy

Placental Hormone

The placenta produces a number of hormones, the most important of which are:

1. Steroid hormones
   1. Estrogen: oestriol, oestradiol, and oestrone
   2. Progesterone
2. Protein hormones:
   1. Human chorionic gonadotropin (HCG)
   2. Human placental lactogen (HPL)
   3. Human chorionic thyrotropin (HCT)
   4. Human chorionic corticotropin (HCC)
   5. Pregnancy-specific B-1 glycoprotein (PSBG)
   6. Pregnancy-associated plasma protein (PAPP)

Human Chorionic Gonadotropin Hormone

This is produced by trophoblast cells from the time the fertilized ovum is embedded. For the first three months of pregnancy, this is released into the maternal circulation and encourages the growth of the corpus luteum. As a result, the corpus luteum continues to produce estrogen and progesterone throughout the three months of pregnancy.

The placenta is fully formed and takes over the production of estrogen and progesterone by the 12th and 13th weeks, so HCG production begins to reduce around the 10th week and the corpus luteum gradually declines. HCG released by the kidney appears in the urine, particularly in the first week of pregnancy, and serves as the basis for the pregnancy test.

Estrogen

It is produced by the corpus luteum before the 12th week of pregnancy and after the 12th week of pregnancy. The placenta, in collaboration with the fetus, produces it.

Estrogen encourages growth in the uterus as well as the breast duct system, the nipple, and the vaginal lining. They are also in charge of water and electrolyte retention in bodily tissue, ovulation suppression, and lactation inhibition during pregnancy.

Progesterone

Progesterone induces the development of thick vascular deciduas, which are ready for the implantation of the ovum, and it generally keeps the deciduas healthy throughout the pregnancy. It is in charge of the complete development of the glandular tissue in the breast, preparing it for milk release.

The plain muscle is relaxed by progesterone. The uterus arose to accommodate the growing embryo and placenta without causing uterine contractions. If progesterone production is inadequate, the uterus may initiate rhythmic contractions and abortion may occur.

This calming effect may be observed in various simple muscles across the body. The ureters are impacted and get kinked and diluted, resulting in stagnant urine, which predisposes to urinary tract infection, which is prevalent in pregnancy. Relaxation of the plain muscle in the vein wall may result in the formation of varicose veins in the legs, rectum, and vulva. This impact is exacerbated by the pressure of the growing uterus on the pelvic vein, which slows venous return from the legs even further.

Human Placental Hormone

It functions similarly to the pituitary human growth hormone. It is found in maternal blood during early pregnancy. It is in charge of a fetus's growth and regulates fat metabolism to benefit the fetus, as well as stimulating breast growth and development throughout pregnancy.

Thyroid Hormone

As a result of high estrogen levels and increased iodine excretion, the thyroid gland grows in size, and thyroid-binding globulin (TBG) levels rise. Total T4 levels rise, while free T2 and T4 levels remain unchanged, preserving the euthyroid condition. The decrease in free thyroxin promotes thyroid-stimulating hormone, causing the thyroid to expand. Increased hair loss, which is common during pregnancy, can be a sign of a changed thyroid hormone.

1. Pregnancy
2. Increased plasma binding protein
3. Increased bound form thyroxine
4. Decreased free toxin levels

During pregnancy, the basal metabolic rate rose by as much as 20-25 percent, most likely due to oxygen conjunction by the fetus.

Pituitary Gland

During pregnancy, the anterior pituitary gland expands as well. During pregnancy, there is an increase in ACTH, thyrotrophic hormone, and melanocyte stimulating hormone, which causes an increase in skin pigmentation. The increased levels of estrogen and progesterone hormone decrease luteinizing hormone and follicle-stimulating hormone.

The posterior pituitary gland is stimulated to create more and more oxytocin.

Adrenal Gland

During pregnancy, the size and activity of the gland increase, particularly corticosteroid production, for example. Mineralocorticoids, glucocorticoids, and sex steroids are all examples of steroid hormones.

Pancreas

The increased metabolic needs of the mother and fetus produce a need for fuel, resulting in a state of accelerated famine. Fasting hypoglycemia and starving ketosis are both prevalent.

To treat symptomatic hypoglycemia, pregnant women should eat small, frequent meals.

Insulin resistance increases as pregnancy progresses, owing to insulin antagonism by human placental lactogen.

References

• Kovacs CS. Calcium metabolism during pregnancy and lactation. NCBI Bookshelf. http://www.ncbi.nlm.nih.gov/books/NBK279173/
• HealthLine. 2005. 2017 http://www.healthline.com/health/pregnancy/bodily-changes-during
• BC Open Textbook. https://opentextbc.ca/anatomyandphysiology/chapter/28-4-maternal-changes-during-pregnancy-labor-and-birth/
• Hadassah Medical Center. http://www.hadassah-med.com/giving-birth/hadassah-birthing-club/throughout-pregnancy/physiological-changes-during-pregnancy
• Tuitui R. 2002, A textbook of Midwifery A (Antenatal), 3rd edition, Vidyarthi Pustak Bhandari (Publisher and Distributor), Bhotahity, Kathmandu
• Tuitui R. 2002, A textbook of Midwifery B (Intranasal), 3rd edition, Vidyarthi Pustak Bhandari (Publisher and Distributor), Bhotahity, Kathmandu