DNA Test Determines Sex of Fetus
Reported August 15, 2011
(Ivanhoe Newswire) -- As a noninvasive method of determining the sex of a fetus,
tests using cell-free fetal DNA obtained from the mother's blood after 7 weeks
gestation performed well, while urine-based tests appear to be unreliable,
according to this study.
Noninvasive prenatal determination of fetal sex could provide an important
alternative to invasive cytogenetic determination, which is currently the gold
standard for determining sex and single-gene disorders. Amniocentesis has small
but measurable rates of procedure-related pregnancy loss; and sonography can be
performed as early as 11 weeks' gestation to determine fetal sex, although not
reliably, according to background information in the article. "The availability
of a reliable noninvasive alternative to determine fetal sex would reduce
unintended fetal losses and would presumably be welcomed by pregnant women
carrying fetuses at risk for disorders," the authors were quoted as saying.
Using cell-free fetal DNA as a noninvasive method for prenatal determination of
fetal sex provides an alternative to invasive techniques for some heritable
disorders. More recently, companies have begun offering this technology directly
to the consumer over the Internet. The tests are marketed for nonmedical use to
curious parents-to-be with promises in some cases of accuracy as high as 95
percent to 99 percent at as early as 5 to 7 weeks' gestation.
Stephanie A. Devaney, Ph.D., of the National Institutes of Health, Bethesda,
Md., and colleagues performed a systematic review and meta-analysis of previous
research to examine the analytic validity of cell-free fetal DNA testing, which
describes the test's ability to detect Y chromosome sequences within maternal
samples, as well as the clinical validity of the test, as indicated by its
ability to correctly identify fetal sex. The researchers selected 57 studies
(which included 80 data sets [representing 3,524 male-bearing pregnancies and
3,017 female-bearing pregnancies]) for inclusion in the analysis.
The researchers found that the overall performance of the tests had sensitivity
of 95.4 percent, specificity of 98.6 percent, positive predictive value, 98.8
percent, and negative predictive value, 94.8 percent. Performance was high using
maternal blood. DNA methodology and gestational age had the largest effects on
test performance, with real-time quantitative polymerase chain reaction (RTQ-PCR)
outperforming conventional PCR. Test performance was high if performed using
RTQ-PCR on a blood sample taken at a time during pregnancy when sufficient
cell-free fetal DNA was present (7 weeks' gestation or later), with the best
performance after 20 weeks' gestation. Testing performed prior to 7 weeks'
gestation using blood, and all tests using urine, were found unreliable.
"The improved performance with later gestation is likely attributable to the
increased concentration of cell-free fetal DNA within maternal blood as the
fetus and placenta develop. This would explain the poor performance of the test
prior to 7 weeks' gestation and the near-perfect performance in the third
trimester," the authors said.
SOURCE: JAMA, published online August 2011
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