View clinical trials related to Type 1 Diabetes.
Filter by:The underlying hypothesis is that vedolizumab will modify immune cell trafficking in type 1 diabetes, and that this will be enhanced by pre-treatment with etanercept. This study will determine whether there is mechanistic evidence in support of this hypothesis and provide preliminary information about safety, efficacy, and tolerability of vedolizumab with and without pretreatment with etanercept in adults with type 1 diabetes (T1D)
Our objective is to test the feasibility, acceptability, and initial efficacy of using behavioral economics incentives (BEI) in a novel, semi-automated intervention to target daily insulin BOLUS scores in adolescents with suboptimal insulin use.
Cardiometabolic risk in patients with abdominal obesity and type 1 diabetes can be moderated by life style modifications. There is an intimate link between gene regulation and circadian rhythm in mediating response to exercise in a variety of insulin sensitive organs. The aim of this project is to evaluate, by intervention, the interplay of circadian rhythm and high intensity interval training (HIIT) on glucose control and skeletal muscle metabolism in patients with overweight with or without type 1 diabetes (T1D).
The project aims to study the effect of early high-dose vitamin D supplementation on type 1 diabetes in children and adolescents receiving intensive insulin therapy. The results may lead to major changes in the early treatment of type 1 diabetes, with special emphasis on the use of vitamin D to improve the function of residual β-cells and maintain standardized insulin therapy for these patients. The overall goal is to reduce the long-term complications of type 1 diabetes.
This R01 is in response to RFA-DK-19-021, Treating Diabetes Distress to Improve Glycemic Outcomes in Type 1 Diabetes. The objective is to test the feasibility and acceptability of a novel, practical, and potentially scalable screen to treat program for diabetes distress in families of school-age children with T1D (called Remedy to Diabetes Distress [R2D2]) and to test the initial efficacy of R2D2 to reduce diabetes distress to improve children's glycemic control.
Recent studies have demonstrated reduced pancreatic volume is present within months of T1D diagnosis in children, adolescents, and adults. As the pancreatic beta cells constitute only 1-2% of the pancreas, the degree of reduction in pancreas volume at disease onset suggests exocrine involvement, challenging the established paradigm of T1D being solely a disease of the endocrine pancreas. To date there has not been an investigation of the potential for pancreatic enzyme replacement therapy in the management of T1D. In individuals with cystic fibrosis-related diabetes, enzyme replacement has been shown to reduce post-prandial glycemia excursions, which are reflected in improved GLP-1 responses to mixed meal tolerance testing. As post-prandial excursions and glucose variability are a significant challenge in T1D, how enzyme replacement may impact these parameters is an important question. The investigators hypothesize that patients with T1DM who have reduced pancreatic volume will have improved glycemic responsiveness, reduced hypoglycemia, and improved symptoms of pancreatic exocrine insufficiency when treated with pancreatic enzyme replacement (CREON).
This study aims to test the effectiveness of an evidence-based eating- disorder prevention program specifically targeted for individuals with Type 1 Diabetes (T1D) compared to an educational control group. The Diabetes Body Project (DBP), is an adaptation of the Body Project which is the only eating disorder prevention program to have repeatedly produced effects when evaluated by independent researchers, produced stronger effects than credible alternative interventions, and affected objective outcomes. DBP has been adapted slightly for individuals with T1D who are at ultra-high risk for eating disorders. The study aims to test the effectiveness of the DBP of reducing body image concerns and reducing eating pathology and improving glycemic control.
The main objective of this study is to determine whether home use of day and night closed loop insulin delivery under free living conditions applying ultra-rapid insulin lispro (Lyumjev) is superior to home use of closed-loop applying standard insulin lispro (Humalog). This is a double-blind, single-centre, randomised, crossover design study, involving a run-in period followed by two study periods during which glucose levels will be controlled either by an automated closed-loop system using standard rapid acting Humalog or by an automated closed-loop system using ultra-rapid Lispro in random order. Subjects will receive appropriate training in the safe use of closed-loop insulin delivery system. Subjects will have regular contact with the study team during the home study phase including 24/7 telephone support. The primary outcome is time spent in target range between 3.9 and 10.0 mmol/L as recorded by CGM during home stay. Secondary outcomes include time spent with glucose levels above and below target, as recorded by CGM, and other CGM based metrics.
ORIGINS-RCE is an observational, cross-sectional, two-arm study aimed at determining if an individual's ethnic origin influences the number of blood vessel-forming stem cells in the bloodstream. Circulating progenitor cells will be enumerated and the distribution patterns of these cell types will be assessed to determine if these parameters differ between individuals of South Asian origin and European origin. Specifically, this study will evaluate if differential regenerative cell exhaustion (RCE) may account, at least in part, for the differences in cardiovascular risk reported between individuals of South Asian vs European origin.
MKC-TI-192 is a Phase 4, 90-day, randomized, three-arm, multicenter clinical trial evaluating the treatment paradigm and efficacy of Afrezza in controlling postprandial glucose in adult subjects (≥18 years of age) with Type 1 Diabetes Mellitus (T1DM). Subjects will be randomized to one of three treatment groups (two Afrezza groups and one control group): - Afrezza + AID: Subjects in this group will use Afrezza for their bolus (mealtime) insulin and a continuous subcutaneous insulin infusion (CSII) pump with an automatic insulin delivery (AID) algorithm using rapid acting analogs (RAA) for their basal and correction insulin coverage. - Afrezza + Insulin Degludec: Subjects in this group will use Afrezza for their bolus (mealtime and correction) insulin and insulin degludec for basal insulin coverage. - AID Control: Subjects in this group will use a CSII pump with an AID algorithm using RAA for all bolus (mealtime and correction) and basal insulin coverage (control group). The study is composed of up to 5 clinic visits (screening, 3 treatment visits, and an end-of-treatment visit) and 9 telephone visits.