View clinical trials related to Gestational Diabetes.
Filter by:Both 50 gr OGTT-100 gr OGTT and 75 gr OGTT are used for detecting gestational diabetes mellitus. Two approaches are approved by obstetricians. With this study, we aim to compare the gestational diabetes mellitus detection rate of these different tests.
This study is a pilot assessment of Sustaining Women's Engagement and Enabling Transitions after GDM (SWEET), a GDM-focused intervention that will apply barrier-reduction patient navigation strategies to improve health after a pregnancy with gestational diabetes mellitus. The investigators aim to determine, via a randomized controlled trial of 40 women who have had GDM, whether those who receive the navigation intervention have improved diabetes-related health at 1 year after birth compared to those who receive usual care. The SWEET intervention will provide GDM-specific, individualized navigation services that leverage existing clinical infrastructure, including logistical support, psychosocial support, and health education, through 1-year postpartum. Participants will undergo surveys, interviews, and medical record review at multiple time points. The investigators will also conduct qualitative interviews with clinical providers.
This study is designed to determine if a postnatal lifestyle intervention will lead to weight reduction over a 12 month period post-delivery in women who have been diagnosed with gestational diabetes mellitus and who have a BMI greater that 25 compared to women who receive routine care.
Gestational diabetes (GDM) is a condition of high blood glucose (or "blood sugar") during pregnancy. GDM can cause harmful short-term and long-term health effects for mom and baby. Diet therapy is an effective way to achieve normal blood glucose for women with GDM, but the best diet is unknown. Diet strategies that improve blood glucose in GDM and that patients can follow are needed for better clinical care. In studies of non-pregnant individuals with diabetes, eating a high fat/protein breakfast as the only dietary change was enough to improve glucose control. Because highest blood glucose readings in GDM usually occur after breakfast, a high fat/protein breakfast could also improve glucose control in GDM. In this study, two dietary strategies for improving blood glucose will be compared. Ten women newly diagnosed with GDM (<30 weeks in pregnancy) will be enrolled in a 12-day cross-over controlled feeding study with a high fat/protein breakfast, which is named a 'Macro-Optimized Diet' (MOD) or standard care diet (SC). In other words, subjects will have all food provided to them, and they will consume each diet for a few days while researchers monitor their blood glucose. Most nutrition aspects of the two diets will be similar, but the MOD diet will vary the timing of eating carbohydrate, protein, and fat to achieve fewer carbs at breakfast. After the 12-day controlled feeding period, participants will continue one of the study diets (as randomized) until delivery. During this time, research team dietitians will provide personalized nutrition education to support GDM self-management. The study will evaluate whether the diet is acceptable to women with GDM and their clinic providers. Data to be collected include blood glucose data, patient and provider feedback on diet acceptability, weight gain, the number of participants who are prescribed blood glucose control medications, and infant weight. These data will be used to evaluate trends pointing to whether one diet is more effective.
Studies suggest that the timing interval between oral intake and the 1-hour gestational diabetes screen may have a significant impact on gestational diabetes screening glucose levels. The investigators plan to conduct a prospective randomized trial comparing a 6-hour fast versus liberal oral intake within 2 hours prior to the glucose tolerance test in pregnancy in order to evaluate the effect of the fasting versus the fed state on routine gestational diabetes screening results.
Gestational diabetes mellitus (GDM) is commonly linked to the development of type 2 diabetes mellitus (T2DM). There is a need to characterize metabolic changes associated with GDM in order to find novel biomarkers for T2DM.
GDM is characterized by decreased insulin sensitivity, decreased insulin secretion, or a combination of both. Women with GDM are at significant risk for overt T2DM later in life, and postpartum insulin sensitivity and secretion in women with GDM has not been quantified, limiting our ability to optimize screening for overt T2DM. In addition, compliance with currently recommended postpartum T2DM screening by OGTT is poor. Quantification of postpartum insulin sensitivity and secretion in women at high risk for T2DM will inform strategies to improve diagnostic strategies. Continuous glucose monitoring (CGM) is a new technology that may be useful to identify women with persistent hyperglycemia. Understanding maternal glycemia and physiology that drives glycemia in the postpartum period is limited. Completion of this study will define postpartum maternal glycemia, quantify insulin secretion versus insulin sensitivity defects, and demonstrate the feasiblity of using continuous glucose monitoring to identify women most at risk for overt T2DM.
Obesity is an ongoing public health problem that is difficult to treat. There is evidence that obesity has fetal origins. Body composition, including visceral, subcutaneous, brown, and hepatic fat have been found to be important predictors in obesity and metabolic syndrome. Magnetic resonance imaging (MRI) can quantify body composition that does not require radiation but is motion limited. The investigators have developed a motion-compensated MRI sequence, also known as "free breathing" MRI. In this study, the investigators plan to obtain free-breathing MRIs of pregnant women in the third trimester of pregnancy. MRIs will be obtained from healthy mothers, mothers with growth-restricted fetuses, and mothers with gestational diabetes. The different types of adipose tissue will be measured and compared between groups and correlated to birth growth parameters. The goal is this study is to assess if motion-compensated MRI can help predict early growth patterns in infancy.
In order to evaluate the effect of an educational intervention on mothers with gestational diabetes and their offspring in the first 18 months of life, The intervention will be applied to mothers with gestational diabetes, and a group of mothers without diabetes, against a control group with the normal post-partum treatment. Effects on overweight and obesity will be evaluated in both mothers and offspring.
This study addresses education needs in gestational diabetes care and followup at the staff and patient levels. In the initial phase, nurses and community health workers will complete specific training modules on gestational diabetes developed for this study. The effectiveness of the education modules will be evaluated through pre/post surveys of participants assessing diabetes knowledge, attitudes, and self-efficacy.