View clinical trials related to Type 1 Diabetes Mellitus.
Filter by:Using qualitative method; a qualitative case study using semi-structured interviews to explore patients' experiences. Study population of insulin pump patients aged 11-18 years old will be recruited from pediatrics with T1D at Dasman Diabetes Institute; who started using CSII at least one year ago and their parents. Semi-structured interviews will be recorded and then transcribed word by word. Data analysis will be performed using an inductive thematic approach.
To assess the safety and performance of the Insulet AP (artificial pancreas) system, using the Omnipod® insulin management system, Dexcom G4 Share® AP System and personalized model predictive control algorithm in adults with type 1 diabetes consuming high fat meals and undertaking moderate intensity exercise.
Adolescents and young adults with type 1 diabetes often have a difficult time achieving good glucose control, which is so important in reducing the risk for diabetes complications. Despite the use of multiple daily injections or insulin pumps and glucose sensors, there is still a need for many individuals to further improve glucose levels without causing low blood glucose levels (hypoglycemia) or adding to the daily burden of living with diabetes. Today an insulin pump can receive glucose readings from a continuous glucose monitor and adjust the insulin delivery in an attempt to keep glucose levels in a more optimal range. These systems are called hybrid closed loop (HCL). This means that much of the insulin delivery is automated, yet the patient still interacts regularly with the system, particularly to help determine the insulin dose to deliver to cover a meal. Results of early studies using HCL systems in adolescents and adults with type 1 diabetes are encouraging. The objective of this study is to compare the efficacy and safety of the automated insulin delivery (AID) system with proportional integral-derivative (PID) algorithm (Minimed 670G 3.0 HCL) to an AID system with combined PID and Fuzzy Logic Algorithm (Minimed 670G 4.0 Advanced Hybrid Closed-Loop (AHCL)). The trial will test the hypothesis that the Minimed AHCL can reduce daytime hyperglycemia, currently the biggest challenge for AID systems, without increasing hypoglycemia. Up to 124 adolescents and young adults (ages 14-<30) will be recruited to test each system for three months in a randomized crossover trial. Investigators will compare how effective each hybrid closed loop system is at preventing high blood glucose readings during the day. The investigators will also evaluate the safety of each system and how participants adjust to the daily use of the technology.
The purpose of this study is to investigate the therapeutic effect of Liraglutide on autoimmune diabetes.
Individuals with type 1 diabetes who intentionally omit insulin to lose weight are at high risk for diabetes-related medical complications and premature death. Conventional eating disorder (ED) treatments are not as effective for these patients, suggesting that they need a more tailored treatment approach and one that includes intervention at the time and place when they are making decisions about their diabetes self-management. The goal of treatment development project is to modify an existing mobile application (app) for EDs (Recovery Record; RR) to address the unique needs of adults with type 1 diabetes (T1D) who intentionally omit their insulin for weight control, and test whether app-supported individual treatment decreases eating disorder (ED) symptoms and improves metabolic control. The investigator will also gather preliminary data on the impact of the intervention on health care utilization and costs and calculate attrition to assess feasibility. The investigators hypothesize that (1) participants will evidence significant decreases in mean blood glucose, (2) participation in routine medical care will increase and emergency visits will decrease, (3) the percentage of time participants are hyperglycemic will decrease, (4) participant scores on the DEPS-R will decrease and (5) participant scores on the EDE will decrease.
The purpose of this study is to determine the key factors influencing insulin sensitivity in type 1 diabetes (T1DM) and maturity onset diabetes of the young, type 2 (MODY2). Our study tests the hypothesis that decreased insulin sensitivity is primarily driven by chronically elevated insulin levels in the blood rather than chronic elevations in blood sugar.
Insulin treatment for type 1 diabetes inevitably carries risk of hypoglycaemia (low blood sugar) which can be severe enough to cause coma, seizure, even death. Being unable to feel when blood glucose is falling, a condition called impaired awareness of hypoglycaemia (IAH), increases risk of severe hypoglycaemia 6-fold. IAH can be reversed and risk of severe hypoglycaemia reduced when people are taught how to adjust their insulin around their life-styles through structured education but problematic hypoglycaemia may persist. Many people with apparently intractable IAH and recurrent severe hypoglycaemia have thoughts about hypoglycaemia that form barriers to their ability to avoid hypoglycaemia. They cannot benefit from conventional treatments to reduce hypoglycaemia. The investigators developed the Hypoglycaemia Awareness Restoration Programme for people with type 1 diabetes and problematic hypoglycaemia despite otherwise optimised self-care (HARPdoc), a novel intervention that combines revision of knowledge about hypoglycaemia avoidance with psychological therapies that directly address unhelpful health beliefs about hypoglycaemia. HARPdoc is delivered over six weeks, by diabetes educators to groups of 6 people. In a pilot study, severe hypoglycaemia was greatly reduced in 23 people with very longstanding IAH and recurrent severe hypoglycaemia. The investigators propose a group-randomised controlled trial of HARPdoc, comparing it to an established educational intervention (Blood Glucose Awareness Training, BGAT) which has also been shown to reduce severe hypoglycaemia. 96 people with type 1 diabetes and problematic hypoglycaemia persisting despite otherwise optimised insulin self-management will be recruited into groups which will be randomised to receive either HARPdoc or BGAT, in 4 centres. The investigators will measure severe hypoglycaemia over two years following courses; hypoglycaemia risk and experience; overall diabetes control and quality of life.
The purpose of this trial is to evaluate the long-term safety in subjects previously implanted with VC-01™ combination product.
This study employs a cross-sectional design to profile the gut microbiome and urine metabolome in overweight/obese children with type 1 diabetes (T1D).
The aims of this study are: 1. To assess the prevalence of prematurity, especially early prematurity, among T1D patients, and compare it to the prematurity prevalence among the non-diabetic general population in Israel. 2. To characterize epidemiological and clinical factors that differ between premature-born patients that developed T1D and those that have not, including the nutritional and therapeutic properties in NICU.