View clinical trials related to Type 1 Diabetes.
Filter by:A Cluster-controlled Intervention Trial regarding Prevention of Dermatological Complications towards use of Continuous glucose monitoring and insulin pumps in pediatric patients with Type 1 Diabetes. The patients will be followed prospectively with visits every 3rd month for the first year of initiation of device. Besides a standardized treatment plan if dermatological complications evolve, will be used.
This study series consists of four related studies and aims to explore and describe many important elements of alopecia areata over three key areas: (1) the current epidemiology of alopecia areata, (2) the prevalence and incidence of psychiatric co-morbidities in people with alopecia areata, (3) the prevalence and incidence of autoimmune and atopic conditions in people with alopecia areata, and (4) the incidence of common infections in people with alopecia areata.
The purpose of this study evaluate the safety and efficacy of the Advanced Hybrid Closed Loop (AHCL) system in sub-optimally controlled patients with T1D, in comparison with Multiple Daily Injection (MDI) therapy with Flash Glucose Monitoring (FGM) or Continuous Glucose Monitoring (CGM). Patient with a diagnosis of Type 1 diabetes currently under MDI+ FGM or MDI+ CGM therapy will be enrolled.
Observational retrospective study about effectiveness and safety of insulin Faster Aspart on continuous subcutaneous insulin infusion treated adult Type 1 Diabetes Mellitus (T1DM) patients in routine clinical practice.
Good glycemic control in individuals with Type 1 diabetes (T1D), has been proven to reduce the risk of diabetes-related complications. Despite technological advances such as the use of insulin delivery devices and continuous glucose monitoring, the average glycemic control in T1D is poor. Though dietary management plays a major role in the overall management of T1D, and it is often classified as the most challenging aspect of treatment, the 2019 Standards of Medical Care in Diabetes for children and adolescents do not clearly address dietary management. As carbohydrate is the macronutrient with the greatest impact on blood glucose, it is reasonable to suggest that carbohydrate reduction will minimize postprandial glucose excursions and improve diabetes control. For this reason, low carbohydrate diets (LCD) have gained popularity, and observational studies report positive glycemic outcomes. However, to date, scientific evidence from randomized trials on the impact of LCD in children with T1D is lacking. Thus, the over-arching goal of this pilot study is to evaluate the feasibility and safety of a low carbohydrate diet in children with T1D, and as an exploratory aim, we will evaluate the efficacy of LCD on glycemic control.
The purpose of this study is to assess the benefits of a painless lancing device among diabetes subjects in improving self-monitoring frequency and HbA1c compared to the conventional lancing device.
A prospective monocentric " before and after " study, ruled in 2 periods of 3 months : during the first period, the patient will adjust insulin treatment as usual, during the second period, the patient will adjust insulin treatment with IRTA support
This is a single arm study comprised of a series of feasibility studies.
The primary purpose of this study is to evaluate the safety and efficacy of combining SGLT2 inhibitors with closed loop control (CLC).
This multi-center randomized control trial (RCT) will compare efficacy and safety endpoints using the insulin-only configuration of the iLet Bionic Pancreas (BP) System versus Usual Care (UC) during a 13-week study period. Participants may be enrolled initially into a screening protocol and then transfer into the RCT protocol, or they may enter directly into the RCT protocol. The RCT will be followed by an Extension Phase in which the RCT Usual Care (UC) Group will use the insulin-only configuration of the iLet Bionic Pancreas (BP) System for 3 months. At the completion of use of the BP system in the RCT only, participants will enter a 2-4 day Transition Phase and be randomly assigned to either transition back to their usual mode of therapy (MDI or pump therapy) based on therapeutic guidance from the iLet BP System or transition back to their usual mode of therapy based on what their own insulin regimens were prior to enrolling in the RCT. There is an optional ancillary study to assess the safety of utilizing self-monitored blood glucose (SMBG) measurements instead of continuous glucose monitor (CGM) measurements as input into the iLet for ~48-60 hours. The Study is intended to mirror a real-world situation where CGM may not be available for an extended period of time (eg, user runs out of sensors and is awaiting new shipment).