View clinical trials related to Pregnancy in Diabetes.
Filter by:In pregnancies associated with diabetes, lowering glucose to the recommended targets to prevent adverse health outcomes often leads to significant hypoglycemia. Hybrid closed-loop (HCL) therapy, automated insulin delivery using an insulin pump getting feedback from a continuous glucose monitor (CGM), may improve outcomes. This exploratory, novel pilot feasibility randomized clinical trial will evaluate pregnant women with type 1 diabetes (T1D) on HCL therapy or Sensor-Augmented Pump Therapy (SAPT, non-communicating pump and CGM) from the 2nd trimester, throughout pregnancy, and 4-6 weeks post-partum. Comparisons will be made on safety (Specific Aim [SA] 1), indices of glycemic variability and fear of hypoglycemia (SA 2), and quality of life and device satisfaction (SA 3) between groups. Exploratory SA 4 will compare maternal and fetal outcomes between groups. Safety data will include episodes of severe hypoglycemia requiring 3rd party assistance, diabetic ketoacidosis, and skin reactions. Glycemic control will be measured by CGM time spent in glucose ranges (<63, 63-140, >140 mg/dL) and other measures of glycemic variability. Subjects will fill out surveys (Fear of Hypoglycemia, a quality of life survey, and 2 questionnaires about device satisfaction) at baseline, throughout gestation, and early post-partum. Data on maternal and fetal outcomes will be collected. Findings will reveal the safety profile and glucose control with a novel therapy for pregnant women with type 1 diabetes.
Gestational diabetes (GDM) is a significant clinical and public health burden, affecting over 400,000 pregnant women in the United States each year. Without adequate treatment, women with GDM and their infants are at risk for substantial morbidity. Because of this, experts recommend treatment focused on normalization of hyperglycemia to improve outcomes. However, providers have limited capacity to predict which treatment will achieve glycemic goals. This results in a choice based on provider and patient preference and a trial and error approach, which can create delays in glycemic control within the short (8-10 weeks) window between diagnosis and delivery. Maternal and fetal morbidity may be related to a mismatch between glycemic pathophysiology and the mechanism of action of glucose-lowering agents. In fact, GDM is heterogeneous, with predominant insulin resistance (IR) in 50%, insulin secretion deficit (ISD) in 30%, and a combination of both in 20% of women as underlying mechanisms of hyperglycemia. This variation in GDM pathophysiology and clinical outcomes supports the use of an individualized treatment approach. The overall goal of this project is to investigate an individualized treatment approach for GDM where treatment is based on each woman's GDM mechanism. The study will employ the same treatment in both arms, but choice of treatment will differ based on study arm (matched or unmatched to GDM mechanism).
Saudi Arabia has been named by the International Diabetes Federation as among the top ten countries with highest prevalence of diabetes. Women are said to have overall prevalence twice that for men. With high birth rate in the country we decided to look at the impact of diabetic pregnancies on their off-springs
Justification: Intrauterine exposure to type 1 or type 2 diabetes increase the risk of macrosomia (35 % to 50 % versus 10 % in general population) despite a good glycemic control. The consequences are : shoulder's dystocia, lung immaturity, caesarean section, neonatal hypoglycaemia and a high frequency of obesity and metabolic disorders in adults. The mechanisms of macrosomia are unclear; chronic hyperglycemia and subsequent hyperinsulinaemia observed during the diabetic pregnancy might explain only partially the fetal weight. Considerable interest has been generated over the last decade on the lipids and fatty acids alterations in diabetes pregnancies. Change in lipoproteins metabolism have been described associated with macrosomia. Maternal nutrition before and during pregnancy plays an important role in fetal growth and subsequent development of an increased susceptibility to obesity and diabetes in later life. Main objective: Looking for an association between maternal and fetal blood lipid parameters and birth weight and body fat in a context of type 1 or type 2 diabetes. Secondary objectives: - Identify lipid markers associated with fetal macrosomia. - Analyze the placenta by measuring the expression of genes implicated in the storage and the transfer of fatty acids. - Analyze and compare the expression level of placental genes subjected to parental imprinting and validated in animal models.