Blood Test That Detects Genetic Abnormalities May Help Predict Pregnancy Complications Before Symptoms: Study
The findings are the first to show that genetic material shed from the placenta into the mother's blood (circulating cell-free nucleic acids) during the first trimester of pregnancy could potentially be used to predict these complications.
Washington, October 13: A blood test, commonly used to detect foetal genetic abnormalities, may help predict complications associated with pregnancy even before symptoms develop, Epigenetics researchers have found.
Their preliminary study, appearing in Epigenetics journal, links certain cell-free DNA signatures to adverse outcomes in pregnancy, including ischemic placental disease and gestational diabetes.
The findings are the first to show that genetic material shed from the placenta into the mother's blood (circulating cell-free nucleic acids) during the first trimester of pregnancy could potentially be used to predict these complications. Scientists Detect Long-Lived Antibodies in Blood, Saliva Samples from COVID-19 Patients.
Although the analysis of genetic material in mother's blood has been used to screen for genetic abnormalities in a pregnancy, this is the first time these specific methods have been used as a way to a more accurate prediction.
"Our research points to a promising approach that could improve outcomes for mothers and their babies using existing technologies," says Dr Sherin Devaskar, lead author of the study.
The physician-in-chief of UCLA Mattel Children's Hospital says if confirmed in larger studies, cell-free DNA blood tests may help identify issues in the placenta as an indicator of a healthy mother and foetus.
For the study, the researchers followed a diverse group of pregnant women between February 2017 and January 2019, testing their blood periodically throughout gestation. By the end of the study, 160 participants had given birth, with 102 maternal and 25 cord plasma samples taken along the way.
They found that during the first-to-early second trimester, placenta-specific DNA increased among those women who went on to develop gestational diabetes. They also identified several differentially expressed genes and were able to create a model with a predictive value for adverse pregnancy outcomes. COVID-19 Vaccine Update: UK to Begin Trials to Test if Anti-TB BCG Vaccine Works Against Coronavirus.
"The novelty of this research is being able to break down a mother's DNA and be able to hone in on the health of the placenta -- something that researchers have never been able to do before," adds Devaskar who is also a distinguished professor of pediatrics at David Geffen School of Medicine. "This research warrants application of automated methodologies in multi-centre trials to improve future testing and screening of all women."