Amniotic Fluid

• It is the outcome of contributions from both maternal and fetal origin. The following mechanism has been proposed for cases with amniotic fluid:
• Maternal circulation transudation through placenta surface and fetal membrane.
• Amniotic epithelial active secretion is to be done.
• Transudation over an umbilical cord's surface and fetal placental circulation.
• Fetal urine also makes a contribution.
• At the 20th week of gestation, trachea-bronchial secretion and transfer over fetal skin prior to keratinization is suggested.

The amount of amniotic fluid rises as the fetus grows. It roughly grows from 25ml to 400ml from the 10th to the 20th week. The fetus's breathing and swallowing reduce the amount of fluid slightly around the 10th week, but neither peeing nor swallowing contribute significantly to fluid quantity changes until the 25th week, when skin keratinization is complete. Then the link between fluid and fetal growth breaks off. By 28 weeks, it had reached a plateau of 800ml. At 42 weeks, the fluid level drops to around 400 ml. At birth, around 1L of amniotic fluid is present.

Physical properties of amniotic fluid

The fluid is light straw in color or tubid, somewhat alkaline, and has a specific gravity of 1.010. It has a significant hypotonicity to maternal serum.

Composition of amniotic fluid

At term, amniotic fluid is 98% to 99% water and 1 to 2% solid. The solution is made up of organic substances such as:

• Protein – 0.3mg%
• Glucose – 20.0mg %
• Urea – 30.0mg%
• Uric acid- 40mg%
• Creatinine – 2mg%
• Total lipid – 50mg%

Amniotic fluid contains hormones, enzymes, inorganic substances such as sodium, chloride, potassium, and suspended particles such as epithelial cells, vernix caseosa, exfoliated amniotic epithelial cells, and so on.

Abnormal appearance

Under some conditions, the natural pale straw hue may be changed. Because of the presence of vernix caseosa, it may seem murky. The following are examples of abnormal appearance:

• Greenish:
  This color is seen because of the presence of meconium, this is an indication of previous or present fetal discomfort in a position other than breech or transverse lay.
• Golden yellow:
  This color is seen because of the presence of bilirubin as a result of fetal cell hemolysis caused by RH-incompatibility.
• Dark maroon:
  This hue is caused by changed blood in an unintentional bleed.
• Blood stained:
  Freshly blood stained and bright red in vasa Previa or low lying placenta will cause this abnormal appearance.

Function of amniotic fluid

Following are the functions of amniotic fluid:

• Fluid allows the fetus in the uterus to move freely.
• It works as a shock absorber, preventing potentially dangerous pressure on the embryonic tissues.
• Liquor amnii inhibits the formation of adhesions between fetal components and amnion.
• Allows for sufficient uterine cavity expansion, preventing excessive traction and providing proper placental and fetal circulation.
• Swallowed liquor may have a nutritive value.
• Swallowed liquor may include gammaglobulin and antibiotics, resulting in passive immunity.
• During labor, the amniotic fluid and fetal membrane form a water bag that contains the fore waters and acts as a fluid wedge, acting as the finest natural cervix dilator.
• It acts as the pool where the fetus excretes pee.
• Bacterial activity safeguards the fetus from infection. Amniotic fluid is not a static fluid; it is refilled every 2.9 hours.

REFERENCE

Medline Plus. 05 January 2017 https://medlineplus.gov/ency/article/002220.htm

Pregmed. 19 August 2013. <http://www.pregmed.org/amniotic-fluid.htm>.

Jones, D.L., 1973, Fundamentals of obstetrics and gynecology Volume 1, Obstetrics, reprint first edition, Derek Llewellyn Jone, 1969.

Dutta, D.C. 1998, textbook of obstetrics, 4th edition, New central book agency PVT LTD, India.

Tuitui R. 2002, A textbook of Midwifery A (Antenatal), 3rd edition, Vidyarthi Pustak Bhandari (Publisher and Distributor), Bhotahity, Kathmandu