An experimental test that relies on an old-fashioned screening exam — the pap smear — may someday allow doctors to easily detect birth defects sooner than ever.
On Tuesday, Wayne State University (WSU) researchers revealed the latest encouraging findings on their creation, called “Trophoblast Retrieval and Isolation from the Cervix,” or TRIC for short. Using a pap smear, they scraped trophoblasts — the cells that eventually help form a fetus’ placenta — from pregnant women’s cervixes and genetically sequenced the fetal DNA found inside with next generation technology. They then compared these samples to those obtained from the mother, placenta, and fetus via conventional means.
Not only were the TRIC samples mostly made out of fetal DNA, indicating the low risk of contamination, but they matched up perfectly with the other fetal samples, validating the test’s overall accuracy. Even more importantly, the samples were taken as early as 5 weeks into pregnancy, blowing past the limit of other, invasive screening tests, such as amniocentesis, which can only be given starting at the end of the first trimester, 14 to 16 weeks in.
The findings were published Wednesday in Science Translational Medicine.
“We used next-generation sequencing and accurately determined the nucleotide sequence down to a single base,” said senior author Dr. Sascha Drewlo, an associate Professor of Obstetrics and Gynecology at WSU, in a news release by the university. “TRIC could be used as a noninvasive test, with the accuracy of invasive tests like amniocentesis, and the ability to perform the test five to 10 weeks earlier than current testing modalities.”
Wayne State University researchers have developed a test that may be able to screen for birth defects as early as five weeks into pregnancy.
In addition to finding single gene mutations in fetal DNA, earlier research performed by the WSU team suggested that measuring the level of select proteins in trophoblasts could also be used to detect other conditions. These include intrauterine growth restriction, which results in smaller-than-normal fetuses, and preeclampsia, a form of high blood pressure and organ damage that affects up to 5 percent of pregnant women.
“Because the cells we purify by TRIC are placental cells that have a critical function early in pregnancy,” co-principal researcher Dr. Randall Armant explained in the news release, “their protein profile has been examined to determine if it becomes different in pregnancies that have serious complications like a miscarriage, undersized fetus, or preeclampsia.”
TRIC’s real challenge, however, is still to come.
“For fetal genetic studies, we next plan to determine if TRIC can identify genetic disorders in the fetus,” Armant said. “This would give parents information about the likelihood of their fetus having a genetic disorder much earlier in pregnancy than current tests. Very soon, we would like to begin clinical trials with all of these potential tests.”
Finding a better way to screen for single gene mutations alone would be a great boon to pediatric health care, the researchers noted, since they’re estimated to be responsible for 10 percent of pediatric hospital stays and 20 percent of infant deaths.