View clinical trials related to Pregnancy in Diabetics.
Filter by:The aim of this study is to describe the metabolic changes during pregnancy in women with type 2 diabetes or gestational diabetes in order to detect the pathophysiological mechanisms behind severe insulin resistance during pregnancy as well as the short- and long term consequences for mother and child. Included pathophysiological mechanisms potentially associated with severe insulin resistance are: Maternal hormonal, inflammatory and metabolic markers in the blood, as well as the level, content and bioactivity of exosomes and genetic variants associated with overweight and diabetes. In addition to the analysis on maternal blood, the same analysis will be performed on umbilical cord blood in order to determine the correlation between markers associated with insulin sensitivity in maternal and umbilical blood. Furthermore, fetal metabolic changes influence on fetal growth and development will be evaluated. Postpartum, the breast milk will also be examined for metabolic active substances that could influence the newborns growth and metabolism. Investigating one potential short-term consequence of diabetes during pregnancy, the association between insulin resistance and structural and functional changes in the placenta will be examined as well as the consequences of such changes on fetal growth and development. Investigating one potential long-term consequence of diabetes during pregnancy, the association between treatment with high doses of insulin during pregnancy and the future risk of developing cardiovascular diseases and heart failure will be examined.
This trial will assess the efficacy of the Tandem t:slim X2 insulin pump with Control IQ technology compared with standard insulin delivery plus CGM in pregnant women with type 1 diabetes.
The purpose of this randomized clinical trial is to determine whether glycemic targets that are lower than those currently recommended by the American Diabetes Association (ADA) and the American College of Obstetricians and Gynecologists (ACOG) would improve overall outcomes in pregnant patients with diabetes. Eligible pregnant women with a diagnosis of gestational diabetes or Type 2 diabetes will be randomized into either routine care with glycemic targets as currently recommended by ADA and ACOG (control arm), or more aggressive care with lower glycemic targets that more closely resemble normoglycemia in pregnancy (intervention arm). The glycemic targets for the control arm will be defined as follows: fasting ≤95 mg/dL, pre-prandial ≤95 mg/dL, and 1-hour postprandial ≤140 mg/dL. The glycemic targets for the intervention arm will be defined as follows: fasting ≤80 mg/dL, pre-prandial ≤80 mg/dL, and 1-hour postprandial ≤110 mg/dL. The primary outcome will be a 250-gram difference in birth weight between the two study arms. Secondary maternal and neonatal outcomes of interest will also be compared between the two study arms.
The first aim of this study is to describe maternal hormonal and inflammatory changes during pregnancy in women that differ metabolically (limited to women with type 2 diabetes, gestational diabetes and/or overweight). The second aim of this study is to examine maternal hormonal, inflammatory and metabolic factors associated with insulin sensitivity in human pregnancy.
This study is going to investigate the predictive ability of glycated albumin combined with body composition, including body weight, BMI, fat free mass and fat mass for gestational diabetes mellitus (GDM) diagnosis.
The purpose of this study is to investigate whether automation of glucose monitoring data to facilitate the total number of recommended and completed SMBG checks improve clinical outcomes for women living with gestational and type 2 diabetes during pregnancy? This is a RCT
Although major advancements have been made in improving glycemic management in type 1 diabetes mellitus (DM), women entering pregnancy with type 1 DM continue to be at dramatically increased risk for adverse maternal and neonatal outcomes, including hypertensive disorders of pregnancy (HDP). At present, there is a lack of effective preventive interventions for HDP, which are associated with significant maternal and neonatal morbidity and mortality. Clinical and in vitro data have shown promise for metformin in prevention of HDP in non-diabetic women. Metformin has a reassuring fetal safety profile and has been well studied in type 1 DM outside of pregnancy. The hypothesis to be tested in this application is that compared to usual care, daily oral metformin therapy initiated prior to 20 weeks' gestation in women with type 1 DM reduces the frequency of HDP.
The randomized controlled trial (RCT) recruits pregnant women with de novo diagnosis of gestational diabetes. Women bearing a singleton pregnancy are randomized into four arms: DHA, oat, oat plus DHA, and placebo. The primary outcomes are cord blood leptin concentration in the newborns and maternal fasting glucose levels at 8 weeks post-intervention.
This study will investigate the interplay of different immune cells and placental cells as well as their potential for the development of pregnancy complications. In particular, the translation of the uteroplacental syndrome into a maternal syndrome, considered in the multifactorial pregnancy disorder preeclampsia, will be investigated. Immune cell subtypes are causally involved in the formation and translation of preeclampsia by inducing an endothelial dysfunction which leads to cardiovascular damage.
This study aims to examine the effect of intrapartum treatment of diabetic women with combined glucose and constant insulin infusion compared to glucose alone on the incidence of neonatal hypoglycemia. Pregnant women with diabetes in pregnancy will be randomly divided during labor to 2 groups: group 1, will receive intravenous glucose with constant insulin infusion; group 2 will receive intravenous glucose alone. The primary outcome is the incidence of neonatal hypoglycemia.