View clinical trials related to Type 1 Diabetes.
Filter by:The purpose of this study is to investigate if repeat bacillus Calmette-Guérin (BCG) vaccinations can confer a beneficial immune and metabolic effect in new onset pediatric Type 1 diabetes.
The goal of this clinical trial is to evaluate the efficacy of an adapted FAMS (Family/friend Activation to Motivate Self-care) intervention on CGM use among study participants who are CGM users. We will leverage the infrastructure of an NIDDK-funded RCT evaluating FAMS-T1D among N=280 emerging adults with T1D who have elevated hemoglobin A1c or elevated diabetes distress (NCT05820477). We anticipate at least 50% using CGM to be included in these analyses.
There are multiple CGMs that are FDA approved. However, there are few studies looking at the variability of measurements between the left and right arm, and none looking at this effect in diabetic patients. This study may identify if glucose differences exist in the left and right arm in patients with Type 1 or Type 2 Diabetes. Furthermore, it may point to future directions for research to standardize methods of glucose measurement such as consistently measuring on only one side of the body.
The purpose of this study is to determine whether verapamil can transiently improve beta cell function in those who do or do not secrete proinsulin and little/no C-peptide.
Poor glycaemic control in pregnancy is a major factor leading to obstetric complications and future maternal-offspring diseases. This phenomenon is evidenced in women with type 1 diabetes (T1DM), and is worrisome since it is aggravating the disease burden of this and next generations. Exercise is a promising tool to improve glucose control during pregnancy and thus avoid adverse consequences. The MERIT1D study will explore when is exercise (before or after lunch) more effective to improve postprandial glycaemic control in pregnant and non-pregnant women (of reproductive age) with T1DM, and the mechanisms underlying these metabolic responses.
The primary objective of this study is to determine the effects of semaglutide on kidney oxygenation and function in type 1 diabetes. The secondary objective is to determine the glycemic effects and safety of semaglutide in type 1 diabetes.
Despite major technological advances in type 1 diabetes (artificial pancreas), the management of hypoglycemia remains a major challenge, especially during and after physical activity. The primary outcome is to determine the temporary blood glucose (BG) target to be set 60 minutes before aerobic exercise in people with type 1 diabetes (PWT1D) using do-it-yourself automated insulin delivery (DIY-AID) systems. Three glycemic thresholds to be applied 60 minutes before physical activity will be tested in 32 people on AID-DIY: 8.3 (current target for commercial AID systems), 8.8, and 9.3 mmol/L. Each participant will perform 3 sessions of moderate aerobic physical activity (ergocycle) at 60% of vo2peak with a different glycemic target each time (random order). Plasma glucose will be measured every 20 minutes before and during physical activity, and blood glucose measured by continuous glucose reading (DEXCOM) for 24 hours post-intervention. Once the best glycemic target is selected, participants could come to the research center for 1 or 2 more voluntary interventions to test the threshold during 1) fasting exercise and 2) late luteal phase of the menstrual cycle.
The goal of this clinical trial is to evaluate how effective the FAMS-T1D intervention is for improving self-regulation (e.g., setting and meeting goals for type 1 diabetes) and social support for meeting those goals for young adults. The main questions that are examined include 1) whether the intervention improves blood glucose, self-management and diabetes distress across time, 2) whether these improvements occur through better self-regulation and social-regulation, 3) whether the intervention improves outcomes for support persons (a friend or family member invited to participate by the person with diabetes) without increasing support burden and 4) whether the intervention improves for persons with diabetes who are on continuous blood glucose monitor their time in range.
To evaluate the efficacy of arginase inhibition on endothelial function in patients with type 1 diabetes and type 2 diabetes.
The current study has two aims: 1. to test the hypothesis that a single dose of lixisenatide can be used as a growth hormone stimulation test; 2. to test if the growth hormone-stimulating effect is mediated by changes in blood glucose. The secondary objective of the study is to monitor the effect of lixisenatide on other pituitary hormones and physiological parameters (blood glucose, blood pressure, heart rate, nausea).