View clinical trials related to Type 1 Diabetes.
Filter by:Despite the valuable information derived from older studies evaluating type 1 diabetes, the diabetes research community has, in large part, overlooked potential contributions of baseline abnormalities in β cell function to T1D development. Newer studies focusing on higher risk individuals often exclude family members without evidence of positive islet autoantibodies. New technologies to assay alternative biomarkers of β cell stress and death remain incompletely explored in both Ab negative and Ab positive family members of T1D patients. Specifically, modern biomarkers of β cell dysfunction have not been rigorously tested in combination with metabolic testing to fully understand their association with insulin secretion. The investigator's working hypothesis is that individuals at genetic risk for T1D exhibit baseline β cell dysfunction, even before development of detectable islet autoimmunity (seropositivity for islet Abs).
The primary objective of this study is to assess hepatic glucose uptake using non-invasive metabolic imaging in three different populations that differ in terms of insulin and glucose kinetics. Between-group comparison will address the following two hypotheses: i) Hepatic glucose uptake will be lower in participants with type 1 diabetes compared with matched controls due to lack of portal insulin and delayed pharmacokinetics of subcutaneous bolus insulin. ii) Hepatic glucose uptake will be higher in participants after bariatric surgery compared with matched health controls due to accelerated glucose absorption and earlier and higher peak portal glucose and insulin concentrations.
Dysbiosis is associated with an increased risk of preeclampsia during pregnancy. The microbiome differs between those with and without type 1 diabetes and the cause of type 1 diabetes has been associated with dysbiosis. Increased knowledge of the microbiome and its variation, depending on the state of health during pregnancies complicated with type 1 diabetes, could in the future lead to preventive care and treatments during these pregnancies.
This study aims to determine whether Lactiplantibacillus plantarum 299v (Lp299v) supplementation will reduce systemic inflammation and prolong residual beta cell function in individuals newly diagnosed with Type 1 diabetes. The investigators hypothesize that probiotic-induced alterations in the intestinal microbiota may favorably alter the post-onset disease state.
This protocol is an intervention study to determine the best education and monitoring strategy for children ages 2-20 years with pre-symptomatic type 1 diabetes (T1D) because there currently exists no clinical guidelines for management of these children in early-stage T1D. This study hypothesizes that the trajectory of T1D can be changed, substantially reducing HbA1c and risk of DKA at diagnosis, through (1) careful monitoring of children progressing from stage 2 to stage 3 T1D using continuous glucose monitor (CGM) technology, (2) staged education targeted to assist families in recognizing evolving dysglycemia, and (3) addressing glycemic abnormalities with early initiation of insulin.
8 young people (aged 12-15yrs) with type 1 diabetes will be interviewed along with their families during this qualitative study. The interviews will explore factors identified by the young people and their families as important in diabetes management. Comparison of these factors will then be made between the young people with higher and lower HbA1c levels.
Subjects will use the Omnipod Horizon™ System in Manual Mode in an outpatient setting for 14-days. Subjects will be trained to use the Manual Mode feature of the Omnipod Horizon™ System including how to use the bolus calculator using manual entry of blood glucose values or by using the CGM-informed bolus calculator.
The purpose of the study is to evaluate the efficacy in glycemic control and the impact on the quality of life of patients using the MiniMed™ 780G System for the treatment of Type 1 diabetes, in real life settings in France.
Type 1 diabetes mellitus (T1D) is the most common form of diabetes among children and youth, and it is increasing around the world, particularly among children under 5 years. This is worrisome given the chronic nature of the disease and its strong association with an increased risk of cardiovascular disease (CVD). Evidence suggests that markers of CVD are already present in children with T1D, making prevention a clinical and public health priority in this high-risk population. Despite this, a good understanding of what factors predispose children with T1D to CVD is still lacking. Our study aims to better understand in this population what individual, familial and environmental characteristics increase the risk for heart disease, how to best measure it early on and what are the potential mechanisms underlying the heightened risk for heart disease in youth with T1D. Specifically, we aim to: 1. compare established risk factors (dyslipidemia, hypertension) with novel early markers for CVD (cardiac phenotype, arterial stiffness, endothelial function) in adolescents with T1D and healthy controls; 2. examine the associations between these novel early markers with: i) lifestyle habits; ii) measures of inflammation; and iii) markers of oxidative stress among adolescents with T1D and healthy controls, and determine group differences in these associations; 3. explore, across both groups, the associations between these established and novel early markers of CVD with neighborhood features. To achieve these objectives, we will compare 100 participants aged 14-18 years with T1D to 100 healthy controls. Lifestyle habits include assessments of physical activity, sleep, sedentary behavior, fitness and dietary intake. Blood pressure and lipid profiles will be measured. Cardiac structure/function will be evaluated by non-contrast cardiac magnetic resonance imaging (CMR). Aortic distensibility will be determined by pulse wave velocity. Endothelial function will be determined by flow-mediated dilation. Inflammatory markers and endogenous antioxidants will be measured in blood. Neighbourhood features include built and social environment indicators and air quality. Our study provides an exceptional opportunity to increase our knowledge on what factors predispose children with T1D to cardiovascular disease. Understanding the interplay between T1D, lifestyle habits and metabolic markers and CVD is critical to developing effective prevention strategies for these vulnerable children.
The purpose of this research study is to find out if Type 1 Diabetes (T1D) affects skeletal muscle health and if we can improve glycemic control by improving skeletal muscle health. Participants in this study will have a blood sample and a urine sample collected after taking a single dose of a nontoxic chemical called D3-creatine. Their body composition will be measured by a scale like device. Parents of participating children will also be asked to complete a food and activity questionnaire. Participants will be in the study for roughly 12 to 24 months. Enrollment will begin once participant signs the consent form. At the 12 month follow-up visit participants will be asked to wear a Garmin physical activity monitor and use the Garmin Connect mobile app for a period of up to 12 months and take a one time Muscle Strength Measurement test. The greatest risks of this study include the possibility of loss of confidentiality.