View clinical trials related to Type 1 Diabetes.
Filter by:This is a blinded cross-over study to see if extended wear insulin infusion sets can prolong insulin infusion set wear up to 7 days in adults with Type 1 Diabetes.
During this study, we will assess a new smart phone application which aims at helping patients with Type 1 diabetes to compute food carbohydrates and meal insulin doses. Patients, already trained to carbohydrate counting, will be recruited among those who have been using this method daily for at least 6 months. They will complete two one-month study phases, using the application in one phase and counting carbohydrate and insulin doses without the application in the other phase, with randomized order of each phase. Visits are scheduled at the start and at the end of each phase to collect data on glucose control and insulin doses. Questionnaires assessing health-related quality of life and ability of self-management of diabetes will also be filled by patients before and after each study phase.
The purpose of this pilot study is to evaluate the initial efficacy of a reinforcement intervention to enhance physical activity levels in sedentary adolescents and young adults with type 1 diabetes (T1D). The intervention will reinforce patients for meeting physical activity goals, with escalating reinforcers provided when patients achieve continuous weeks of meeting goals. A 12-week trial will be conducted in which 60 patients will be randomized to: (1) standard care or (2) standard care plus reinforcement.
This study will be an open-label, cross-over study as subjects will be studied under both study conditions - suspension of subcutaneous insulin infusion via pump during treatment with insulin alone (control) vs. suspension of subcutaneous insulin via pump during treatment with insulin and canagliflozin.
This study is a single-arm, multi-center, Home and Hotel Clinical Investigation in pediatric subjects with type 1 diabetes on insulin pump therapy. The purpose of this study is to demonstrate that the closed loop algorithm is safe as part of the overall system, and to assess the PLGM feature in 7-13 years old subjects.
Closed loop technology has been shown to reduce both hypoglycemia and hyperglycemia, as well as reduce glycemic variability. Several groups around the world investigate efforts in developing closed-loop systems. Investigators combined two closed-loop systems with different mode of operation in order to enhance the closed-loop system. The two systems are Hybrid closed-loop system and the MD-Logic closed-loop system . The combined algorithm Hybrid logic closed loop (HLCL) was tested 'In silico' and was proved to be safe and effective. The next step is to test the system in a clinical study in a supervised environment in a camp. The two systems were tested separately in several clinical studies and were proven to be safe and effective in a diverse population of patients with type 1 diabetes. The MD-Logic system for overnight use "the GlucoSitter" has a CE mark. The purpose of this study is to collect data on the feasibility of the HLCL system in a camp setting.
The purpose of this study is to evaluate the effects of siltuximab on immune cell functions in patients with Type 1 diabetes (T1D).
Title: An open-label, three-center, randomized, cross-over study to evaluate the safety and efficacy of day and night closed-loop control using the MD-Logic automated insulin delivery system compared to sensor augmented pump therapy at patients with type 1 diabetes at home Indication: Type 1 Diabetes mellitus using an insulin pump therapy and continues glucose sensors The objective of this pilot study is to evaluate the safety and efficacy of 60 hours blood glucose control, using the MD-Logic System in individuals with type 1 diabetes at patient's home. The duration of study participation for one subject is 28-56 days and the overall duration of the study is 6 months The participants of the study are patients ≥ 10 years until 65 years with Type 1 Diabetes mellitus using and insulin pump therapy and continuous glucose sensors. Sample Size n = 45
Therapeutic education is central to the management of diabetes, especially in children and adolescents. Camps represent an ideal environment for education. During camps, the campers receive both theoretical and practical information intended to improve their understanding and self-management of diabetes. The metabolic impact of diabetes camp is little known among children and adolescents living with type 1 diabetes in sub-Saharan Africa. The aimed of this study was to assess the changes in glycemic control and insulin doses in a group of children and adolescents living with type 1 diabetes in Cameroon during and after camp.
It has been reported that insulin basal rate reduction initiated at exercise onset can reduce the hypoglycemic risk during exercise. However, another potentially more efficient strategy to prevent exercise-induced hypoglycemia could be to reduce insulin basal rate a certain time prior to exercise. No study investigated what would be the best timing to initiate such temporary basal insulin reduction. Therefore, the objective of this study will be to compare the efficacy of three strategies to prevent exercise-induced hypoglycemia during a 45 min exercise at 60% VO2peak (moderate intensity): 1) reduce insulin basal rate at the time of exercise; 2) reduce insulin basal rate 20 minutes prior to exercise; 3) reduce insulin basal rate 40 minutes prior to exercise. Investigators hypothesize that the time spent in hypoglycemia will be less when the insulin basal rate is reduced 40 minutes prior to exercise compared to a reduction at the time of exercise. Secondary hypotheses are: 1) Time spent in hypoglycemia will be less when the insulin basal rate is reduced 20 minutes prior to exercise compared to a reduction at the time of exercise; 2) Time spent in hypoglycemia will be less when the insulin basal rate is reduced 40 minutes prior to exercise compared to a reduction 20 minutes prior to exercise.