View clinical trials related to Type 1 Diabetes.
Filter by:The purpose of this study is to study the effect of a liraglutide, a glucagon-like peptide agonist, on post-meal blood glucose concentrations, glucagon levels, mean weekly blood sugars, and insulin doses in adolescents with Type 1 diabetes. Type 1 diabetes is an autoimmune disease that is usually diagnosed before the age of 20. Individuals with this disease are completely dependent on insulin for survival. While significant advances have been made in technological support for improving diabetes control, insulin remains the only effective treatment for Type 1 diabetes. Liraglutide is a long-acting glucagon-like peptide-1 analog. This drug is approved for the treatment of Type 2 diabetes in adults. This study will test the effect of liraglutide on blood sugar control in adolescents with Type 1 diabetes.
The primary goal of the study is to determine whether insufficient sleep is associated with poor glycemic control in type 1 diabetic children. Secondary goals aim to determine whether salivary amylase could be an easily accessible and non-invasive biomarker of sleep loss and somnolence, and whether insufficient sleep is linked to body composition. Sleep characteristics, glycemic control, salivary amylase and body composition will be assessed 3 times, at 3-4 months intervals, in 82 type 1 diabetic children.
The gut microbiome is increasingly recognized as a contributor to disease states. In type 1 diabetes, alterations in gut microbiota may be linked to changes in intestinal permeability, inflammation and insulin resistance. Prebiotic fiber is a dietary supplement that alters gut microbiota and could potentially improve insulin sensitivity in children with type 1 diabetes. This pilot study aims to determine the feasibility of a 12-week dietary intervention with prebiotic fiber in children with type 1 diabetes. The investigators hypothesize that consumption of prebiotic fiber will alter gut microbiota and intestinal permeability, leading to improved glycemic control. Prebiotic fiber is a potentially novel, inexpensive, low-risk treatment addition for type 1 diabetes that may improve glycemic control by changes in gut microbiota, gut permeability and inflammation.
The purpose of this study is to determine whether dietary fats may affect postprandial glycemic response differently according to their quality, and these effects may differ whether they are assumed in the context of meals with high or low glycemic index in patients with type 1 diabetes. This interaction between quality of fat and glycemic index of carbohydrates may have clinical implication for the calculation of prandial insulin dose in these patients.
Clinically, the ability to slow or prevent beta cell demise can prevent or improve the course of type 1 diabetes. The immune-mediated destruction of beta cells that is an apparent major pathological basis for the disease, has led to efforts to prevent or suppress this immune assault. Here we propose to buttress the beta cell's capacity to withstand this assault by improving the function of the endoplasmic reticulum stress resolving mechanisms within these cells. The ability to do so could have a major impact on preventive and therapeutic strategies for type 1 diabetes (and possibly other types of diabetes). The type of endoplasmic reticulum stress relieving agent (TUDCA) proposed here could ultimately be applied on an anticipatory basis to individuals at high risk for type 1 diabetes.
In type 1 diabetes (T1D), immune defense cells in the body attack and destroy insulin-producing beta cells leaving affected people with a lifelong need for daily insulin injections. Even with insulin injections, blood glucose (sugar) control is imperfect and leads to many health complications and a shortened life span. This is a pilot clinical trial to test the safety of a drug, ustekinumab, in 20 adult subjects with recent-onset T1D. Ustekinumab is currently licensed for use in psoriasis where it has proven to be both highly effective and safe and so the investigators hope to see a similar effect in T1D. This trial will also be used to determine the best dosage and frequency of the drug to be given to people with T1D to help design future studies on the drug's effectiveness. The investigators hope that if the drug can block immune cells soon after the development of diabetes, any remaining insulin-producing cells may be protected, and regenerate, thus producing more insulin so that individuals may be insulin free, or require less insulin.
The first purpose of this study is to is to compare metabolic control of type 1 diabetes among children under the age of 7 years who use an insulin pump and a real-time (RT) glucose sensor, and children who use only insulin pump; the investigators will also determine dietary habits, their knowledge of type 1 diabetes management and emotional aspects of experiencing illness in the family, in both groups of children.
Islet transplantation is a promising treatment of type 1 diabetes in selected cases. Results are however hampered by a relatively low number of islets surviving the transplantation into the liver, which currently is the site for transplantation. In the present study we compare a new transplantation site (intramuscular in the arm) to the golden standard (the liver) in patients undergoing kidney transplantation from the same donor. In half of the intramuscular transplanted patients, the islets will be mixed with mesenchymal stemcells from the recipient to, possibly, improve the immunological aspects of the transplantation.
Type 1 diabetes is an autoimmune disease in which the insulin-producing pancreatic beta cells are destroyed, resulting in poor blood sugar control. The purpose of this study is to determine the safety and effectiveness of islet transplantation, combined with immunosuppressive medications, specifically using Campath as induction, for treating type 1 diabetes in individuals experiencing hypoglycemia unawareness and severe hypoglycemic episodes.
This study will test the hypothesis that a wearable automated bionic pancreas system that automatically delivers both insulin and glucagon can improved glycemic control vs. usual care for young people with type 1 diabetes 12-20 in a diabetes camp environment.