News Release

DNA test better than standard screens in identifying fetal chromosome abnormalities

New study in the New England Journal of Medicine shows that noninvasive cfDNA has significantly lower false positive rates and higher predictive values in general obstetric population

Peer-Reviewed Publication

Tufts Medical Center

BOSTON (Feb. 27) – A study in this week's New England Journal of Medicine potentially has significant implications for prenatal testing for major fetal chromosome abnormalities. The study found that in a head-to-head comparison of noninvasive prenatal testing using cell free DNA (cfDNA) to standard screening methods, cfDNA testing (verifi® prenatal test, Illumina, Inc.) significantly reduced the rate of false positive results and had significantly higher positive predictive values for the detection of fetal trisomies 21 and 18.

A team of scientists, led by Diana W. Bianchi, MD, Executive Director of the Mother Infant Research Institute at Floating Hospital for Children at Tufts Medical Center, reports the results of their clinical trial using non-invasive cell-free DNA prenatal testing in a general obstetrical population of pregnant women, in an article entitled "DNA sequencing versus standard prenatal aneuploidy screening."

The multi-center, blinded study analyzed samples from 1,914 pregnant women, and found that noninvasive cfDNA testing had a ten-fold improvement in the positive predictive value for trisomy 21, commonly known as Down syndrome, compared to standard prenatal aneuploidy screening methods (aneuploidy is a term for one or more extra or missing chromosomes). Importantly, the cfDNA test performed consistently well in a general population of pregnant women, regardless of their risk for fetal chromosomal abnormalities. Previous studies have shown that the tests were more accurate for women who had higher risks for fetal chromosomal abnormalities, but this was the first time that the cfDNA tests were compared in a general obstetrical population to the variety of blood and ultrasound tests that comprise the current standard of care in the United States.

"We found that the major advantage of noninvasive prenatal DNA testing was the significant reduction of the false positive rate," said Bianchi. "Prenatal testing using cell-free DNA as a primary screen could eliminate the need for many of the invasive diagnostic procedures (such as amniocentesis) that are performed to confirm a positive screen."

Prenatal screening for fetal aneuploidy is recommended by the American College of Obstetricians and Gynecologists as part of routine prenatal care. Researchers compared current standard noninvasive aneuploidy testing techniques - serum biochemical assays and nuchal translucency measurements using ultrasound - with a noninvasive, cell-free DNA test. Serum biochemical assays identify biomarkers for chromosomal abnormalities while nuchal translucency measurements use ultrasound examinations to measure the thickness of a space at the back of the baby's neck. With Down syndrome, more fluid is present, making the space appear thicker. Cell-free DNA testing works by mapping and counting DNA fragments in a mother's blood sample and comparing the measurements to normal reference samples. The cell-free DNA is obtained through a simple blood draw from the mother after 10 weeks of pregnancy.

The study's endpoint was a comparison of false positive rates for trisomies 21 and 18 between the two methods. The false positive rate for combined trisomies 18 and 21 among those undergoing DNA testing was 0.45 percent while the rate for standard testing was 4.2 percent, a statistically significant difference.

Another comparison was made for positive predictive value of test results: DNA results for trisomy 21 had a predictive value of 45.5 percent compared to 4.2 percent in standard testing; DNA results for trisomy 18 had a predictive value of 40.8 percent compared to 8 percent for standard testing, a significant improvement.

"A strength of our study is that it was conducted in a variety of clinical settings that mirror real-world medical practices," said Bianchi. "The majority of the patients in the study were less than 30 years old, were having their first baby, and conceived spontaneously. Our study population was racially and ethnically diverse, which also makes our results very relevant to actual clinical practice. We also obtained pregnancy outcome information on every patient in the study."

Dr. Bianchi is Founding Executive Director of the Mother Infant Research Institute at Tufts Medical Center, Vice Chair for Pediatric Research at Floating Hospital for Children, Natalie V. Zucker Professor of Pediatrics, Obstetrics and Gynecology at Tufts University School of Medicine, and a member of the genetics program faculty at the Sackler School of Graduate Biomedical Science at Tufts University. She is a member of the Institute of Medicine, a branch of the National Academies.

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Additional authors of the new study are R. Lamar Parker, M.D., of Lyndhurst Clinical research in Winston-Salem, N.C.; Jeffrey Wentworth, M.D., of The Group for Women in Norfolk, Va.; Rajeevi Madankumar, M.D., of Long Island Jewish Medical Center and North Shore University Hospital in New Hyde Park, N.Y.; Craig Saffer, M.D., of West Coast OB/GYN in San Diego, Calif.; Anita Das, Ph.D., of InClin in San Mateo, California; Joseph Craig, M.D., of Colorado Permanente Medical Group in Denver. The remaining authors are all from Illumina in Redwood City, Calif. They are: Darya Chudova, Ph.D., Patricia Devers, M.S., C.G.C., Keith Jones, Ph.D., Kelly Oliver, B.S., Richard Rava, Ph.D., and Amy Sehnert, M.D.,

The cfDNA test was developed and performed by Illumina, Inc. (formerly Verinata Health), a leading developer and manufacturer of life science tools in their CLIA-certified, CAP accredited clinical laboratory. The verifi® prenatal test is a noninvasive blood test that analyzes DNA found in pregnant women's blood to detect the most common fetal chromosome abnormalities, including trisomies 13, 18, and 21 and sex chromosome aneuploidies.

Study funding was provided by Illumina.

About Tufts Medical Center and Floating Hospital for Children

Tufts Medical Center is an exceptional, not-for-profit, 415-bed academic medical center that is home to both a full-service hospital for adults and Floating Hospital for Children. Conveniently located in downtown Boston, the Medical Center is the principal teaching hospital for Tufts University School of Medicine. Floating Hospital for Children is the full-service children's hospital of Tufts Medical Center and the principal pediatric teaching hospital of Tufts University School of Medicine. Tufts Medical Center is affiliated with the New England Quality Care Alliance, a network of more than 1,800 physicians throughout Eastern Massachusetts. For more information, please visit http://www.tuftsmedicalcenter.org.


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