Preventing Preterm Births By Balancing Hormones
The relationship between two different types of estrogen and a hormone produced in the placenta may serve as the mechanism for signaling labor, according to a new study accepted for publication in The Endocrine Society’s Journal of Clinical Endocrinology & Metabolism (JCEM). This finding may help doctors intervene and prevent preterm birth much more effectively.
"The trigger for the onset of labor in women has been a puzzle for a long time," says Dr. Roger Smith, MD, PhD, of John Hunter Hospital in Newcastle, Australia and lead author of the study. "Our findings show we may have an answer, and furthermore may be able to delay or advance labor."
Humans have two types of estrogen called estradiol (E2) and estriol (E3). When E2 and E3 are in roughly equal amounts there is no drive to labor, but the opposite holds true once one becomes in greater excess than the other. This study evaluated the ratio of E3 to E2 in 500 pregnant women and found that it went up rapidly as labor approached indicating that E3 could stimulate the onset of labor.
Dr. Smith and his colleagues then sought to understand what was causing the increase in E3 and they believe they found an answer. In a previous study they showed that a hormone in the placenta, called corticotrophin-releasing hormone (CRH), rises rapidly through pregnancy, peaking at the time of labor. CRH levels rise earlier in women who deliver prematurely and later in women who deliver late, forming a biological clock that regulates the length of pregnancy.
Researchers also showed that CRH can act on the adrenal glands of the fetus to stimulate the production of a steroid hormone which the placenta uses to make E3. This study showed a strong relationship between CRH levels in the mother’s blood in the weeks before birth and the levels of E3 supporting the view that CRH increases E3.
"CRH may be the catalyst for the onset of labor, by driving steroid hormone production in the fetus, which then leads to an increase in E3 so that it exceeds E2," said Dr. Smith. "If this progression is correct, it may explain why women with a baby who dies in utero can still go into labor. In this scenario, levels of E3 would drop making E2 more dominant and triggering the onset of labor."
"It may be possible to delay or advance labor by varying the ratio of E3 to E2 by giving either E2 or E3 to the pregnant woman," said Dr. Smith. "It may also be possible to predict the timing of birth by monitoring this ratio between the two estrogens."
Dr. Smith notes that this is the first study to show these results and confirmation through further research is needed.
Other researchers working on the study include Julia Smith, Patricia Engel, Maria Bowman, Andrew Bisits and Shaun McGrath of the Mothers and Babies Research Centre at the University of Newcastle in Australia; and Patrick McElduff of the Hunter Medical Research Institute in Newcastle, Australia; David Smith of the University of Western Australia; and Warwick Giles of the University of Sydney in Australia.
The article "Patterns of Plasma Corticotrophin-Releasing Hormone, Progesterone, Estradiol and Estriol Change and the Onset of Human Labor," will appear in the June 2009 issue of JCEM.
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