Why does a pregnant woman miscarry?
Department of Obstetrics, Gynecology & Reproductive Medicine
Approximately one in every seven pregnancies ends in miscarriage. The usual cause of sporadic pregnancy loss is due to an embryo possessing an abnormal number of chromosomes-either one too many or one too few. All of he cells of our body, except our eggs or sperm, possess 46 chromosomes (23 different pairs, one derived from the mother and one from the father).
During formation of the gametes (eggs and sperm), the number of chromosomes each possesses is halved, so that when these two cells join at fertilization, the normal number 46 is restored. Unfortunately, during that halving process (termed meiosis), things can go wrong, leading to a small percent of eggs or sperm that contain not 23 chromosomes, but some other number such as 24 or 22. This problem increases with the woman's age and may be the result of the man's age as well. Some embryos with an abnormal number of chromosomes will fail to grow beyond a few days after fertilization, while others will die some time during the first or second trimester of pregnancy. Occasionally, a fetus possessing an abnormal number of chromosomes survives through gestation and a child may be born with abnormalities due to this "aneuploidy."One common example of this is seen in children born with an extra chromosome 21.
The majority of embryos possessing an abnormal set of chromosomes die very early in the first trimester of pregnancy. Most of the time, having had a miscarriage does not indicate that there will be difficulties in the future. In fact, the likelihood of a second pregnancy loss following a first loss is approximately 20 to 25 percent, and, even following a subsequent second loss, the odds of a miscarriage in the next pregnancy are about 25 to 30 percent. This does not mean, however, that a couple should not consider determining whether there is anything that may predispose them to a greater risk of pregnancy loss.
Those factors that increase the risk of miscarriage can be divided systematically into several large groups: abnormalities of the uterus, hormonal disorders, certain infections, alterations in blood clotting, immunologic abnormalities, and genetic causes. A thorough examination will address all of these issues. The usual recommendation is to perform an evaluation after a woman has experienced three losses, as the likelihood of successful pregnancy remains high until this time. However, it is often difficult for a couple to attempt to conceive again, after experiencing two pregnancy losses without the reassurance that there is no predisposition to miscarriage for them, or that any problem detected has been addressed. Also, in the face of delayed conception, an evaluation following two pregnancy losses is advised as well as in the case for women who are over the age of 35, when the chances of conceiving start to diminish significantly.
The causes of pregnancy loss are often different when miscarriage occurs early in the first trimester, rather than late in that trimester, or within the second trimester. Most commonly, miscarriages that happen early in the first trimester result from either a genetic cause, due to the embryo having an abnormal number of chromosomes (human cells normally contain 23 pairs of chromosomes), or a hormonal cause, due to the pregnant woman not having enough of the hormone progesterone. This hormone is essential for allowing the embryo to grow within the uterus, and if there is not enough of it, miscarriage will occur. After an egg is released from an ovary in the process called ovulation, the ovary produces progesterone, which helps to create the "fertile bed" in which the embryo grows to establish a normal pregnancy. To determine the best treatment if low progesterone is suspected, the first step is to evaluate its cause. It can be associated with an abnormal increase in the hormone prolactin, which normally plays a role in getting the body ready for milk production during pregnancy. Prolactin can be abnormally high in nonpregnant women with hypothyroidism in which the amount of hormones produced by the thyroid are low; during use of certain medications; and in the presence of a "benign" tumor of the pituitary gland that in itself is not dangerous to health.
It is possible to measure the level of progesterone in the blood during a pregnancy to confirm that there is enough of this hormone. It is also essential to measure the level of another hormone, called hCG (human chorionic gonadotropin), at the same time. This hormone is produced by cells that form the placenta within the uterus, in which a fetus would later grow. The rate of increase in its level provides a measure of the health of the embryo. The hCG hormone makes the ovary produce large amounts of progesterone to help maintain pregnancy. Low levels of progesterone may be a reflection of a poorly developing embryo that is destined to miscarry, rather than being the cause of the miscarriage. If hCG levels do not rise normally when measured over several days, there is a strong likelihood that the embryo itself is not healthy. Measuring the levels of both hormones, hCG and progesterone, helps to distinguish cause and effect. Pregnancy tissue obtained under these circumstances may no longer contain living cells and, unfortunately, no information may be obtained. If the chromosomes of the embryo are normal, it becomes important to look for non-genetic causes that may create conditions leading to miscarriage.
Women can be born with an abnormally shaped uterus that makes them inclined to have a miscarriage. When an embryo destined to be a female grows, the uterus forms when two primitive tubes—the Mullerian ducts-grow together and are joined. Sometimes this fusion of tissue is incomplete. A wall (septum) then may be present within the middle of the uterus that can result in abnormal development of an embryo, leading to its loss. This septum can be removed by a relatively simple operation, performed under anesthesia in an ambulatory surgery center. Other abnormalities of the uterus may also lead to miscarriage, in either the first or second trimester, such as a single or double-horned uterus that is misshaped. These congenital (present at birth) abnormalities of the uterus cannot be easily corrected by surgery. It is known that they may be associated with a weakening of the lower end of the uterus, called the cervix, which may open on its own in the second trimester and lead to pregnancy loss. Monitored by repeated ultrasound examinations during pregnancy, the cervix can be closed with a stitch, if necessary.
Sometimes, a miscarriage may lead to future miscarriages. This happens when the uterus does not completely empty its contents after a miscarriage, resulting in persistent bleeding and possible infection, and the need for a subsequent D&C (dilation and curettage). These circumstances might cause scarring within the uterus that prevents the uterus from growing normally during a subsequent pregnancy, leading to early or later miscarriage. This scarring needs to be removed before a woman attempts to become pregnant again. An x-ray study can be performed to diagnose the presence of scars within the uterus, as well as to confirm whether the uterus has a normal shape.