View clinical trials related to Type1diabetes.
Filter by:To investigate in a prospective way changes in Mucosal-Associated Invariant T (MAIT) cells frequency, phenotype and function in link with the gut microbiota, gut integrity and the presence of Coxsackie virus B in two cohorts of pediatric patients: patients with a high genetic risk of type 1 diabetes and pediatric patients with recently diagnosed T1D by comparison with control subjects Tasks: 1. To measure blood MAIT cells frequency, phenotype and function in the three cohorts 2. To analyze gut microbiota and the presence of Coxsackie B enterovirus (CVB) and their impact on MAIT cell function 3. To evaluate gut integrity and analyze the gut mucosa 4. To integrate all the data obtained with T1D development and evolution
There is clear evidence that regular exercise improves wellbeing and reduces the risk of diabetes related complications in people with type 1 diabetes. However, many people with type 1 diabetes do not exercise regularly. The primary reason for this is fear of hypoglycaemia and loss of glycaemic control associated with exercise. This loss of glycaemic control is associated with traditional moderate intensity continous aerobic exercise advocated in the guidelines for exercise in people with type 1 diabetes. Recent work (unpublished) from our lab suggests high intensity interval training (HIT) may reduce the risk of hypoglycaemia in people with type 1 diabetes, however stronger evidence is needed before firm conclusions can be drawn. Therefore, the aim of this study is to determine the effects of HIT on glycaemic control in people with type 1 diabetes compared to no exercise and traditional moderate intensity continous exercise. 24 people with type 1 diabetes will be recruited to complete a randomised counterbalanced cross over study comparing 3x 2-week interventions periods. During these intervention periods participant will maintain their habitual lifestyle but complete either no exercise (control), traditional moderate intensity continous exercise or high intensity interval training. Throughout the intervention periods participants glycaemic control will be monitored using a flash glucose monitor.
This is an observational study, in which newborn infants from the general population are screened at birth for HLA-conferred susceptibility to type 1 diabetes and celiac disease. The participants carrying genetic susceptibility to type 1 diabetes (approximately 9.5%) will be analyzed for diabetes-associated autoantibodies at the age of 1, 2 and 3 years, while those predisposed to celiac disease (about 14%) will be screened for tissue transglutaminase antibodies at the age of 1 and 3 years. The intention is to screen annually 10,400 newborn infants for a period of 3 years. About 988 infants are each year identified as a child at risk for type 1 diabetes, and it is expected that around 80% of the families with such a child are willing to join the autoantibody screening. Approximately 1456 infants are each year recognized as a child at risk for celiac disease, and again the expectation is that 80% of the families will join the antibody screening program.
This is an inpatient treatment, double-blind, randomized, 3-way crossover study in T1DM subjects using insulin pump therapy.
Sex might interact with cardioautonomic neuropathy (CAN) in the development of macrovascular disease in patients with type 1 diabetes (T1D). The regulation of the autonomic system shows sexual dimorphism, and may contribute to the cardiovascular risk overload in women with T1D. The aims of this project are: A.1) Determining the prevalence of CAN and subclinical atherosclerosis in a large cohort of consecutive patients with T1D as a function of sex (cross-sectional study). A.2.) Addressing the progression of CAN and subclinical atherosclerosis in patients with T1D as a function of sex (longitudinal prospective study). A.3.) Investigating the influence of sex steroids and circulating biomarkers in the development and progression of CAN and subclinical atherosclerosis. Research designs: A cross-sectional design/prevalence screening study determining the prevalence of CAN as a function of sex in 320 consecutive individuals with DM1. A longitudinal prospective study: the cohort of prevalence screening study will be prospectively followed, and the assessment of cardiovascular autonomic function and subclinical atherosclerosis will be repeated over time.
Empagliflozin, an inhibitor of the sodium glucose co-transporter 2 (SGLT2), reduces post-prandial glucose levels in adults with both type 2 and type 1 diabetes and importantly reduces both cardiovascular and renal complications in type 2 diabetes. In adults with type 1 diabetes empagliflozin improves endothelial function and vascular stiffness when used in conjunction with insulin. There is clear evidence that complications in type 1 diabetes have their origins during adolescents thus to reduce diabetic complications with adjunctive therapy, this age group must be studied. These studies will need to focus on the effects of these adjunctive agents on functional biomarkers for development of complications. This study is designed to develop pilot and feasibility data for a large scale trial of low dose empagliflozin, 2.5 mg daily, on biomarkers for the development of cardiovascular and renal complications in adolescents between 12 and 18 years of age. The investigators will specifically study the effects of 8 weeks of empagliflozin on: 1. Pre-and post-prandial inflammatory markers using high carbohydrate and high fat meals. Inflammatory markers to be measured include interleukin-6 (IL-6), tissue necrosing factor α (TNF-α), complement component C3 concentrations and skin advanced glycosylation endproducts (AGE). 2. Pre-and post-prandial vascular function including forearm vascular resistance, endothelial function and pulse wave velocity. 3. Microalbuminuria and pre- and post-prandial glomerular hyperfiltration, tubular injury and renal inflammation. The investigators will, also, measure more traditional risk markers including blood pressure, hemoglobin A1c, and lipids. Eligible participants will have had diabetes for at least 1 year and not have other chronic medical illnesses or diabetes complications. Because of the risk of diabetic ketoacidosis (DKA) subjects must have a hemoglobin A1c level less than 9% and have no history of recurrent DKA or known insulin omission. This will be the first pilot study designed to explore primary endpoints regarding cardiovascular and renal disease rather than glucose control with empagliflozin therapy in adolescents with type 1 diabetes.
To assess the integration of the DreaMed Advisor Pro tool into a real-world clinical practice using both in person and virtual visits to assess benefits in glycemia, as measured by the glucose management indicator and other glucose metrics. To determine acceptability of the DreaMed Advisor Pro tool both from a person with diabetes as well as a health care provider perspective. To quantify the potential reimbursement potential that could be generated with use of the DreaMed Advisor Pro.
To examine effects of two approaches to sahoor meal consumption during Ramadan on blood sugar control and incidence of early day hypoglycemic episodes requring the discontinuation of fasting.
A national screening program for children aged 9 months-5 years that will be tested for the presence of islet autoantibodies.Up to 50,000 Children will be screened by their primary care physician all over Israel. The initial screening will be done at the age of 1 year (in conjunction with the routinely collection of blood for CBC ) and repeated at ages 2-5 years. Antibodies will be measured in capillary blood samples using the Ultrasensitive Antibody Detection by Agglutination-PCR (ADAP) technology developed by Enable Biosciences, which is 1,000-10,000 times more analytically sensitive than currently used methods. By using this innovative technology in such a large cohort, the study is anticipated to detect antibodies at an unprecedented earlier age.When positive in the screening, multiple antibodies will be confirmed by a second sample analyzed by the ADAP technology. In addition, multiple antibodies will be also measured using a radio-binding assay (RBA) of a venous blood sample for investigational purpose only. Children with confirmed multiple antibodies (stage 1 or 2 T1D) will be followed up routinely for the appearance of clinical signs of diabetes (HbA1c, repeated OGTT, monitoring of urine and blood glucose where indicated) and will be invited along with their families to attend an educational program. This program will include diabetes education emphasizing on DKA prevention as well as stress assessment for the families involved and stress alleviating interventions. The analysis and storage of the samples will be done in a single screening center at Schneider Children's Medical Center of Israel.
Open single armed study to investigate safety and feasibility of administrating autologous T regulatory cells at the time of allogenic islet transplantation.