View clinical trials related to Type 1 Diabetes.
Filter by:OPERA Study is a randomized, open-label, prospective, pilot, and a monocentric clinical trial involving outpatients within Abu Dhabi Stem Cells Center (ADSCC) with a confirmed diagnosis of type 1 diabetes mellitus (T1DM). The patients will be randomly allocated (1:1) in a parallel assignment involving two groups of participants: Group A (Regular-intensity arm): Extracorporeal Photopheresis (ECP) on a regular-intensity regimen described in the Protocol as add-on T1DM standard of care, or Group B (Accelerated-intensity arm): ECP on an accelerated regimen plus T1DM standard of care.
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 primary aim of the study is to evaluate the glucose response to low-dose glucagon (single 150 µg dose) administered immediately before aerobic exercise in individuals with AHCL-treated T1D.
Type 1 diabetes (T1D) is characterized by absolute insulin deficiency. Although the discovery and application of exogenous insulin has prolonged the lifespan of T1D patients, the chronic diabetic complications caused by long-term poor glycemic control will still reduce patients' quality of life and the overall life expectancy. According to the studies focused on long-term T1D, part of the patients with long disease duration showed resistance to microvascular complications, and several protective factors have been identified. The prevalence of T1D in China is extremely low compared to that in the western world, and little is known about the characteristics of patients with long-term T1D in China. Therefore, this study is designed to collect variable clinical and laboratory features of patients with long-term T1D, explore the risk and protective factors for the development of microvascular complications, and provide reference for the prediction and prevention of these complications.
Type 1 diabetes requires people with type 1 diabetes to constantly monitor their blood glucose and adjust their insulin doses to try and keep glucose levels in range. Hybrid closed loop systems (also called artificial pancreas) consist of a sensor that continuously measures glucose levels, an algorithm that then decides every few minutes how much insulin to deliver and an insulin pump that then delivers the insulin. These systems have been shown in observational and randomized studies to improve glucose levels and have high levels of user satisfaction. The National Health Service (NHS) in the UK has launched a pilot for up to 1,000 people with type 1 diabetes to trial these devices for up to 1 year and the results of that pilot will be audited by clinical teams. This study will recruit people from that pilot and use well validated as well as bespoke questionnaires to assess the impact of this technology on various key patient reported outcomes such as depression, diabetes related distress and fear of hypoglycemia (low blood glucose). We will invite a small number of participants to take part in semi-structured interviews to gain a more detailed understanding of the benefits and challenges of using these devices, and the impact they have on people living with type 1 diabetes. We know that living with a partner with type 1 diabetes can also have a negative impact on quality of life, and so we will invite partners of people using the hybrid closed loops systems to complete some validated and bespoke questionnaires. A small sample will also be invited to participate in interviews. The data from this real-world study of the impact of hybrid closed loop systems on patient reported outcomes will be of value to clinicians, people with type 1 diabetes and policy makers in understanding the value of these systems to people with type 1 diabetes and their families.
In this single arm pilot study it will be investigated whether encapsulated autologous fecal microbiota transplantation may be used to halt the decline in residual beta cell function in individuals with recent onset Type 1 diabetes mellitus.
Diabetic kidney disease (DKD) occurs in up to 40% of people with type 1 diabetes (T1D), often leading to kidney failure and markedly magnifying risks of cardiovascular disease and premature death. Landmark T1D kidney biopsy studies identified the classic pathological lesions of DKD, which have been attributed largely to hyperglycemia. Recent advances in continuous glucose monitoring (CGM) and automated insulin delivery have facilitated improved glycemic control, but the residual risk of DKD continues to be high. In addition, obesity and insulin resistance (IR) have accompanied intensive glycemic therapy and may promote mitochondrial dysfunction and inflammation. Deciphering the molecular underpinnings of DKD in modern-day T1D and identifying modifiable risk factors could lead to more effective and targeted therapies to prevent DKD.
The purpose of this study is to learn how different resistance training programs affects blood sugar in young athletes with T1DM.
This study aims to identify the unmet psychoeducational needs of parents of children 8-12 years of age using insulin pump and CGM for pediatric T1D management and to leverage that information to develop an innovative app-based psychoeducational intervention to optimize use of these technologies and improve T1D outcomes.
This clinical study assesses the feasibility of implementing the inControl automated insulin delivery algorithm with Dexcom continuous glucose monitoring and a compatible insulin pump in adults with type 1 diabetes. It additionally provides pilot efficacy outcomes for interoperable automated insulin delivery.