Active clinical trials for "Diabetes Mellitus, Type 1"

This study is designed to evaluate whether epigenetic markers in overweight men with type 1 diabetes (T1D) or type 2 diabetes (T2D) can be improved with a 3 month lifestyle intervention or program focused in glycemic intervention.

This project proposes to use telemedicine-delivered cognitive-behavioral therapy (CBT) enhanced with continuous glucose monitor (CGM) review to target diabetes distress in young adults with type 1 diabetes. The efficacy of CBT for diabetes distress (CBT-DD) will be tested in comparison to commercial FDA-approved CGM only in a randomized controlled clinical trial. The investigators central hypothesis is that the addition of a CBT intervention that targets diabetes distress and self-management directly will yield clinically significant improvements in both diabetes distress and glycemic control relative to CGM alone. The investigators propose to recruit 150 young adults (age 18-35) with type 1 diabetes from a national population for an entirely virtual 6-month study over four years, with targeted recruitment of racial/ethnic minorities. In addition to standard measurement of HbA1c for glycemic control and validated patient-reported outcome (PRO) surveys, the investigators plan to innovatively integrate momentary psychological and behavioral data via smartphone-based ecological momentary assessment with CGM data to assess day-to-day changes in diabetes distress, affect, self-management, and glycemia over the course of the trial.

For children with type 1 diabetes (T1D), pain and needle phobia can cause postponing of changes in insulin pump infusion sets and continuous glucose monitors, and thus worsen glycemic control. We aim to assess the effectiveness of virtual reality (VR) technology, in reducing pain and anxiety, and improving regimen adherence and glycemic control among children with type 1 diabetes (T1D). Children with T1D, managed with continuous glucose monitoring and insulin pumps, will be recruited for a randomized cross-over trial. Children will be randomized to one of two interventions for diabetes management: group 1 will use VR glasses first and group 2 will listen to vocal-guided affective imagery first (audio). After 1 month, the interventions will be crossed over. The outcome measures will include pain and anxiety assessment, regimen adherence, glycemic control, and patient-reported outcome measures (PROMs) of VR satisfaction and effectiveness.

Over 300,000 people in Canada suffer from Type 1 Diabetes (T1D), a chronic condition whose incidence rate has been increasing in Canada every year by 5.1% (higher than the global average). While exogenous insulin injections allow those with T1D to live, it is not a cure, and those with T1D develop severe complications (kidney failure, cardiovascular disease). Strategies to regress the development of these complications, minimize healthcare system burden, and save the lives of Canadians are urgently needed. Undertaking regular exercise is an obvious strategy for those with T1D and has many well-established health benefits. Despite these benefits, adults with T1D exercise less frequently due to fear of severe hypoglycemia and a lack of knowledge of effective exercise strategies. Adding to this complexity, the investigators have recently shown that males and females elicit differential impairments in skeletal muscle metabolism in response to T1D. These differences may extend to the peripheral microvasculature and may lead to sexual dimorphism in the health benefits of exercise for those with T1D. Ultimately, developing a healthy muscle mass, including microvasculature, will help mitigate dysglycemic and dyslipidemic fluctuations and improve insulin sensitivity. The overarching purpose of this proposed study is to determine the impact of T1D on human skeletal muscle and its microvasculature over the lifespan in males and females, and its responses to exercise training and detraining.

Diabetes is one of the very common and chronic diseases in the present world, which affects children and adults. Diabetes is characterized by hyperglycemia. Hence, diabetic patients need to precisely monitor their blood sugar level regularly a few times a day. Currently, the solutions for self-monitoring blood glucose are invasive (finger prick method, continuous glucose monitoring (CGM) using microneedle).The fully non-invasive CGM approaches still are in high demand. The medical device is developed, ultimately, to continuously measure the blood glucose level from continuous in-vivo photoacoustic signal. For this study, the goal is to check if the signal collected by the investigational device is relevant and exploitable in patients with type I diabetes. The main task of participants is to wear the investigational device during one week.

Almost all people who have had type 1 diabetes for 5 years have a defect in secretion of the hormone Glucagon. This hormone is involved in the body's response to low blood glucose (hypoglycaemia). It works by releasing glucose stores from the liver to bring the blood glucose back to normal. This defect therefore increases the risk of severe hypoglycaemia. The reason for this Glucagon defect in people with Type 1 diabetes is currently unknown. This study aims to look at the Glucagon response to hypoglycaemia in 24 people with type 1 diabetes to ascertain whether tight blood glucose control over a period of time improves this response. The investigators aim to achieve good blood glucose control using new generation Automated Insulin Delivery systems (AIDs). This system is made of: an insulin pump, a continuous glucose monitor (CGM) and an algorithm that allows adjustment of insulin delivery based on the blood glucose readings from the CGM. This is the most up to date technology that there is in the management of type 1 diabetes. However, people using this technology often still have problems with high blood glucose after eating. To ensure a very good blood glucose control participants will also follow a low carbohydrate diet to prevent this blood glucose rise after meals. The Glucagon response to low blood glucose will be measured at zero and eight months using the hyperinsulinaemic hypoglycaemic clamp technique.

The study will test an app and web-delivered intervention designed to improve glycemic control (HbA1c) among young adults with Type 1 diabetes. All participants will receive the "core" digital intervention, the SweetGoals app, focused on self-monitoring and goal setting. Efficacy of two independent intervention components (incentives for adherence and web health coaching) will be tested

The study will compare the postprandial responses to a test meal between subjects with type 1 diabetes and healthy control subjects, in terms of gut hormone levels, meal induced thermogenesis, hunger and satiety perception, as well as futher metabolic parameters.

While genetics demonstrated a major risk factor for the development of type 1 diabetes (T1D), microbiota dysbiosis has been suggested as an elicitor in immunological tolerance and of beta cell autoimmunity. The probiotic Lactobacillus johnsonii N6.2 may prevent or restore the gut flora and show systemic impacts and adaptive immunity in the T1D population thereby preserving beta cell function.

This is a prospective, interventional, cohort study, meaning that researchers will follow and observe a group of enrolled study participants over a period of time (one to two months) to gather information and record any developments of the outcomes in question. This study will recruit 125 participants with Type 1 Diabetes (T1D) to: Analyze the effect of reducing the cholesterol levels in the blood on platelet function. (Platelets are small cells in the blood which help form blood clots to slow or stop bleeding and to help wounds heal Analyze the effect of reducing the cholesterol levels in the blood on While Blood Cell (WBC) gene expression, (White Blood Cells are part of the body's immune system which help the body fight infection and other diseases) and Analyze the effect of reducing the cholesterol levels in the blood on vascular or blood vessel function.