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Maternal B Vitamins clinical trials

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NCT ID: NCT02244684 Completed - Pregnancy Clinical Trials

Effects of Maternal Folate and Folic Acid Supplementation on DNA Methylation in the Newborn Infant

Start date: September 2010
Phase: N/A
Study type: Observational

An overwhelming body of evidence of the protective effect of folic acid supplementation on neural tube defect affected pregnancies led to mandatory folic acid fortification in Canada in 1998. Folate is an important co-factor in the transfer of one-carbon units essential in DNA synthesis, repair, and methylation reactions, aberrations of which have been implicated in the pathogenesis of several chronic diseases including cancer. Epigenetic reprogramming occurs in utero and has the potential to be modulated by the methyl donor supply of which folate is a contributor. Animal studies have shown maternal folate exposure can modulate epigenetic changes in the offspring, however, there is limited evidence of this relationship in humans. The aim of this research is to determine the effects of maternal dietary folate and supplemental folic acid intake during the periconceptional and in utero periods on global and gene-specific DNA methylation in human infants. This is a prospective observational study involving 368 Canadian mother-child pairs recruited from St. Michael's Hospital in Toronto, Ontario. Dietary and demographical information was collected from consenting pregnant women at study baseline (12-16 weeks gestation) and in the third trimester (34-37 weeks gestation). Maternal blood samples were obtained at baseline and prior to delivery and a sample of umbilical cord blood was collected at parturition to measure levels of folate status. Global and gene-specific DNA methylation in umbilical cord blood will be correlated with cord and maternal folate status. The data will be analyzed using separate ordinary least squares (OLS) regressions. Results from this study will contribute to a better understanding of how maternal folate and folic acid intake can modulate epigenetic modifications in the offspring and potentially have an effect on disease susceptibility later in life.