View clinical trials related to Type 1 Diabetes.
Filter by:The purpose of this study is to determine if providing in clinic point-of-care autonomous AI diabetic retinopathy exams improves screening rates compared to standard of care referral to an eye care provider, in a randomized control trial in a racially and ethnically diverse cohort of youth.
The aim of this observational clinical trial is to obtain data on the safety, efficacy and satisfaction of the Tandem T:Slim X:2 Pump System in patients with type 1 diabetes.
Retrospective multicenter study analyzing data gathered during the FUTURE study (S59342) to assess the effect of using Insulin Glargine 300 U/mL (Gla-300) on measures of diabetes control and quality of life. Of the FUTURE participants, data about the type of insulin the participants used will be gathered. On the basis of these data participants will be divided in two groups (control or investigational). Change in glycemic control and quality of life from before to after the switch to Gla-300 (investigational group) will be compared to the change of glycemic control and quality of life of the FUTURE participants who did not switch to Gla-300 (control group). The FUTURE study was a 24-month during multicenter observational cohort study analyzing data on the use of the Abbott Freestyle Libre in people with diabetes. Data were gathered during standard clinical follow-up, and from questionnaires that were presented to the participants at defined time points.
Observational cross-sectional multicenter study about clinical effect of intermitent continuous glucose monitoring (Flash) in adult type 1 diabetes patients in an Spanish public health system.
An artificial pancreas (AP) is a control system for automatic insulin delivery. The investigators have implemented a missed meal bolus detection algorithm for use within an AP control system. The robust R-AP system used in this protocol has been designed to handle a variety of real-world scenarios that are critical to a high-risk patient population. The investigators will test how well the new algorithm handles missed or inaccurate meal announcements. This type of algorithm may significantly improve glucose control over the standard model predictive control (MPC) closed-loop algorithm without these new algorithm features for patients with type 1 diabetes.
The purpose of the study is to determine the accuracy of two different continuous blood sugar monitoring systems in hospitalized patients by comparing them standard laboratory blood sugar testing in the hospital.
The primary aim of the study is to compare the efficacy of single-administration low-dose glucagon and split-administration low-dose glucagon to placebo for prevention of exercise-induced hypoglycemia in people with type 1 diabetes using insulin pumps and multiple daily injections (MDI). The secondary aim is to compare the accuracy of three continuous glucose monitors (CGM) during and after exercise in inpatient and outpatient settings.
Islet transplantation is an effective modality for treating type 1 diabetes. Despite marked progress in clinical islet transplantation with the achievement and maintenance of insulin independence in over half of recipients up to 5 years, transplant approaches are limited to those that struggle to control their diabetes. Furthermore, this approach remains restricted due to the scarcity of human pancreas donors. While transplanting insulin-producing cells into the liver has been demonstrated as an efficacious means of restoring glycemic control to patients with T1D, the procedure often results in cell loss, and carries risks. Moreover, transplant in to the liver does not permit imaging or retrieval of donor islets. The ability to retrieve the cells is also important for safety reasons. In theory, the space under the skin is an attractive alternate site for transplanting insulin producing cell, due to ready access, and potential for monitoring cellular transplant function through novel imaging techniques. However, transplantation of insulin producing cells into an unmodified site under the skin universally fails to reverse diabetes in research animal models, or in human studies. Other techniques using devices with different type of technologies and biomaterials have been explored with variable success. Unfortunately, the foreign body and inflammatory reaction persist in the implant. Shapiro Lab, has developed a novel technique called 'device-less' (DL) transplant modality. This approach was designed to harness an innate foreign body response in a favorable and controlled manner, to induce growth of new blood vessels to allow the survival of the insulin producing cells without the natural body response to foreign body. Briefly, this site transforms the inhospitable under the skin site into a viable location through the temporary implantation of a small tube called angiocatheter. For this study, 5 patients will received transplant in to the modified site under the skin using the DL transplant technique.
This study explored the effects of self-compassion intervention on diabetes distress and self-compassion.
An intensive 13 weeks program that aims to improve glucose control in children with type 1 diabetes.