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Ed. Note: The following is a press release from the NIH.
March 2, 2009 --
Children born to women who have low blood levels
of vitamin B12 shortly before and after conception may have an increased
risk of a neural tube defect, according to an analysis by researchers at the
National Institutes of Health, Trinity College Dublin, and the Health
Research Board of Ireland.
Women with the lowest B12 levels had 5 times the
risk of having a child with a neural tube defect compared to women with the
highest B12 levels.
Women who consume little or no meat or animal
based foods are the most likely group of women to have low B12 levels, along
with women who have intestinal disorders that prevent them from absorbing
sufficient amounts of B12.
Neural tube defects are a class of birth defects
affecting the brain and spinal cord. One type, spina bifida, can cause
partial paralysis. Another type, anencephaly, is a fatal defect in which the
brain and skull are severely underdeveloped.
Researchers have known that taking another
nutrient, folic acid, during the weeks before and after conception can
greatly reduce a woman’s chances of having a child with a neural tube
defect. Folic acid is the synthetic form of the vitamin folate. In the
United States, cereal grains are fortified with folic acid to reduce the
occurrence of neural tube defects in the U.S. population.
The study appears in the March Pediatrics. The
study’s first author was Anne M. Molloy, Ph.D., Trinity College Dublin.
Scientists from the Health Research Board of Ireland and two NIH institutes,
the Eunice Kennedy Shriver National Institute of Child Health and Human
Development and the National Human Genome Research Institute, also took part
in the study.
"Vitamin B12 is essential for the functioning of
the nervous system and for the production of red blood cells,” said Duane
Alexander, M.D., director of the NICHD. "The results of this study suggest
that women with low levels of B12 not only may risk health problems of their
own, but also may increase the chance that their children may be born with a
serious birth defect."
Ireland has a high rate of neural tube defects,
and NIH scientists have frequently collaborated with Irish researchers to
gain insight into the causes of this group of disorders.
To conduct the study, the researchers analyzed
stored blood samples originally collected during early pregnancy from three
groups of Irish women between 1983 and 1990. During that time, pregnant
women in Ireland rarely took vitamin supplements. The study authors reasoned
that the lack of routine vitamin supplementation would allow them to
identify a sufficient number of women with low Vitamin B12 to conduct their
analysis.
For their analysis, the researchers classified the
women into three groups. The first group consisted of 95 women who were
pregnant with a child having a neural tube defect at the time the blood was
taken. The second group was composed of 107 women who had previously given
birth to a child with a neural tube defect but whose current pregnancy was
not affected. Like the first group, women in the third group (a total of 76)
were pregnant with a child having a neural tube defect at the time the blood
sample was obtained, but were enrolled in a different study than the women
in group 1. The researchers measured the Vitamin B12 and folate levels of
the women’s blood samples, and compared them to those of control groups
whose pregnancies were unaffected by a neural tube defect.
Because low folate levels are a known risk factor
for neural tube defects, the researchers used statistical techniques to
evaluate the role of Vitamin B12 independently of the role of folate. In all
three groups, women with low B12 concentrations (estimated at less than 250
ng/L, before pregnancy) had 2.5-3 times the risk of having a child with a
neural tube defect compared to those with higher levels. Women with levels
in the deficient range (0-149 ng/L ) were at the highest risk: 5 times that
of women with higher levels.
The study authors wrote that it is not known how
B12 and folate might interact to influence the formation of the neural tube,
the embryonic structure that gives rise to the spine and brain. They noted
that the two vitamins are jointly involved with several key biochemical
reactions, as well as with the synthesis of DNA. Lack of either Vitamin B12
or folate in any of these chemical processes theoretically could increase
the risk of a neural tube defect.
The authors noted that their results needed to be
confirmed by other studies among other populations of women. They suggested,
however, that women should have Vitamin B12 levels above 300 ng/L before
becoming pregnant. (Because B12 levels drop sharply during pregnancy, the
researchers adjusted the levels measured during pregnancy to provide a
target level for women to achieve before they become pregnant.)
Because Vitamin B12 comes from foods of animal
origin, women who adhere to a strict vegan diet may be at risk for a B12
deficiency, said an NICHD author of the paper, James L. Mills, M.D., senior
investigator in the Division of Epidemiology, Statistics, and Prevention
Research. He added it is advisable for women with digestive disorders that
interfere with the absorption of foods to consult a physician before getting
pregnant, to make sure they are receiving adequate amounts of B12.
Dr. Mills explained that critical events in the
formation of the brain and spinal column occur very early in pregnancy—in
the first 28 days after conception—before many women even realize they are
pregnant.
He added that the U.S. Public Health Service
recommends that all women of childbearing age consume 400 micrograms of
folic acid each day. This amount assures that a woman will have adequate
stores of the vitamin, in the event of an unintended pregnancy.
"If women wait until they realize that they are
pregnant before they start taking folic acid, it is usually too late," Dr.
Mills said.
Similarly, he said, it would be wise for all women
of childbearing age to consume the recommended amount of Vitamin B12,
whether they are planning a pregnancy or not. "Half of the women who become
pregnant each year in the U.S. were not planning to become pregnant."
"Our results offer evidence that women who have
adequate B12 levels before they become pregnant may further reduce the
occurrence of this class of birth defects," Dr. Mills said.
Vitamin B12 is available in milk, meats, poultry,
eggs, as well as fortified cereals and some other fortified foods.
Information on foods that contain Vitamin B12, as well as the Recommended
Dietary Allowances for the vitamin, is available from the NIH Office of
Dietary Supplements,
http://dietary-supplements.info.nih.gov/factsheets/vitaminb12.asp
Folate is found in leafy green vegetables, fruits,
and dried beans and peas. Information on sources of folate also is available
from the NIH Office of Dietary Supplements,
http://ods.od.nih.gov/factsheets/folate.asp.
Dr. Mills explains the study findings in the
accompanying online video at
http://www.nichd.nih.gov/news/resources/links/videoNTDS-B12.
A transcript of the video is available on the
NICHD Web site at
http://www.nichd.nih.gov/news/resources/links/transcriptNTDS-B12.cfm
The NICHD sponsors research on development, before
and after birth; maternal, child, and family health; reproductive biology
and population issues; and medical rehabilitation. For more information,
visit the Institute’s Web site at
http://www.nichd.nih.gov/.
The National Institutes of Health (NIH) — The
Nation's Medical Research Agency — includes 27 Institutes and Centers
and is a component of the U.S. Department of Health and Human Services. It
is the primary federal agency for conducting and supporting basic, clinical
and translational medical research, and it investigates the causes,
treatments, and cures for both common and rare diseases. For more
information about NIH and its programs, visit
http://www.nih.gov/.
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