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60 Myoinositol supplementation in pregnancies at risk for gestational diabetes. Interim analysis of a randomized controlled trial (RCT) Fabio Facchinetti 1 , Lucrezia Pignatti 1 , Maria Lieta Interdonato 2 , Isabella Neri 1 , Giulia Bellei 1 , Rosario D’Anna 2 1 University of Modena and Reggio Emilia, Mother-Infant Department, Modena, Italy, 2 University of Messina, Obstetric/Gynecological Sciences and Reproductive Medicine Department, Messina, Italy OBJECTIVE: Myoinositol (MI), a polycyclic alcohol, is an insulin-sen- sitizer agent. In a small RCT we tested the hypothesis that overweight/ obese women could benefit from its supplementation, as far as the occurrence of Gestational Diabetes Mellitus (GDM) is concerned. STUDY DESIGN: Single pregnant women with BMI27 and normal glucose and Glycosylated Hemoglobin, in absence of any chronic dis- order or a previous GDM were randomized to receive, orally, 2 grams MI0.2 g folic acid (Treated) or folic acid alone (Controls), twice/ day, in a 1:2 ratio. Randomization was done at each Center . Treat- ment started at first prenatal exam, before 11th week of pregnancy. Simple diet counseling was provided to every women. A 75 g glucose test (OGTT) was planned at 24th-26th gestational week (main out- come). Obese women also received OGTT at 16th-18th week (none tested positive). RESULTS: This analysis was performed at 50% recruitment. Random- ization occurred at the same time in both Centers (10.11.9 and 9.51.7 weeks). Age, ethnicity, BMI and parity distribution were sim- ilar in Treated and Controls. Also positive family history of diabetes was equally represented. Blood glucose at OGTT is reported in the Figure. Treated group showed a significantly better tolerance than Controls. GDM was found lesser in Treated group (6/31, 19.4%) than in Controls (24/60, 40.0%) (p0.047). At logistic regression, both a younger age (p0.023) and MI treatment (p0.047) predicted fewer GDM diagnoses (R square0.053). CONCLUSION: In women with BMI27, MI supplementation early in pregnancy favors a better tolerance to glucose, thus lowering the rate of GDM. 61 Intrauterine programming of diabetes induced cardiac embryopathy Rolanda Lister 1 , Bin Zhou 2 , Alyssa Chamberlain 2 , Francine Einstein 2 1 Montefiore Medical Center, Obstetrics & Gynecology/Women’s Health, Bronx, NY, 2 Albert Einstein College of Medicine, Genetics, Bronx, NY OBJECTIVE: Maternal hyperglycemia is a well-recognized risk factor for congenital heart disease. However, the underlying cellular and molecular mechanisms are not well characterized. Our aim is to de- termine if maternal hyperglycemia induces changes in DNA methyl- ation in regions associated with known genes essential for normal heart development. STUDY DESIGN: Hyperglycemia was induced in normal 8-week old ICR female mice with a one time intraperitoneal injection of 150 mg/kg of streptozotocin (STZ) prior to mating. Histological analysis of fetal cardiac morphology was evaluated for malformations on embryonic (E) 16.5 day of controls and pups exposed to maternal hyperglycemia. We used the massively-parallel sequencing-based HELP assay to ex- amine cytosine methylation levels at 1.65 million loci in neonatal hearts on post-natal (P) day 1 to assess genome-wide cytosine meth- ylation profiles. RESULTS: Various cardiac structure defects occurred in 71% of the pups (n14) of hyperglycemic dams. The phenotypes noted were aortic stenosis (36%), hypoplastic left heart (36%), transposition of the great arteries (14%), double outlet right ventricle (7%), and ven- tricular septal defect (7%). There was also a 10-fold increase in DNA methylation of over three hundred genes in the experimental versus controls on P1 neonates. Several of these genes are implicated in car- diac development. Selected gene candidates known to be involved in cardiac formation or function include Fhl2, Ttn, Actc1, Pitx2, Bmpr1b, Pdgfra, Bmp10, Myh 10, and Adrb1. CONCLUSION: Maternal hyperglycemia alters DNA methylation of some cardiac genes during heart development, which may contribute to increased risk for congenital heart defects. Quantitative, genome- wide assessment of cytosine methylation may be used as a discovery platform to gain insight into the mechanisms of hyperglycemia-in- duced cardiac anomalies. Oral Concurrent Session 5 Diabetes www.AJOG.org S36 American Journal of Obstetrics & Gynecology Supplement to JANUARY 2013
