View clinical trials related to Type 1 Diabetes.
Filter by:The primary aim of the study is to compare the efficacy of single-administration low-dose glucagon and split-administration low-dose glucagon to placebo for prevention of exercise-induced hypoglycemia in people with type 1 diabetes using insulin pumps and multiple daily injections (MDI). The secondary aim is to compare the accuracy of three continuous glucose monitors (CGM) during and after exercise in inpatient and outpatient settings.
McGill artificial pancreas lab has developed a learning algorithm using a reinforcement learning approach to adjust basal and bolus recommendations for high-fat meals and exercise management for individuals with type 1 diabetes on multiple daily injections (MDI) therapy. The reinforcement learning algorithm is integrated with a mobile application that gathers insulin, meal information (carbs (if applicable) and high-fat content), mealtime glucose value, glucose trend at mealtime, and type and timing of postprandial exercise.
The purpose of this study is to see if the use of the InPen® for teens and young adults up to age 21 years with type 1 diabetes helps to decrease burden and improve glycemic control.
This study is a randomized-control pilot study that aims to evaluate Time Limited Eating (TLE) in the pediatric T1D population, implemented within the first six months after diagnosis. This period is characterized by residual β-cell function, during which TLE may have the ability to preserve and improve β-cell activity, indicated by increased C-peptide production. The investigators aim to assess the feasibility, acceptability, and safety of TLE in the pediatric T1D population, as well as to investigate the impact of TLE on β-cell function, insulin sensitivity, and glycemic control.
The main purpose of this study is to evaluate the safety and tolerability of a study drug called nasal glucagon (Baqsimi) in pediatric participants with type 1 diabetes (T1D) aged 1 to less than 4 years. Blood tests will be performed to check how much nasal glucagon gets into the bloodstream. Blood sugar will also be measured to understand the effect of the drug on blood sugar levels. The study consists of a screening period up to 35 days before dosing, 1 day when a dose of nasal glucagon will be given and then 2 telephone follow up calls; first follow-up call on the day after the nasal glucagon was given and second call about one week after nasal glucagon was given. The study will last up to 9 days, not including the screening period.
The main objective of this study is to determine whether home use of fully closed-loop glucose control applying ultra-rapid Lispro insulin is superior to standard insulin pump therapy with continuous glucose monitoring (CGM) in adults with type 1 diabetes on insulin pump therapy with sub-optimal glycaemic control (HbA1c ≥ 8.0%). This is an open-label, single centre, randomised, crossover design study, involving a run-in period followed by two study periods during which glucose levels will be controlled either by an automated closed-loop system using ultra-rapid Lispro insulin or by participants usual insulin pump therapy with continuous glucose monitoring in random order. A total of up to 30 adults (aiming for 24 completed participants) with T1D on insulin pump therapy will be recruited through diabetes clinics and other established methods. Participants who drop out of the study within the first 4 weeks of the first intervention arm will be replaced. Participants will receive appropriate training in the safe use of the closed-loop devices. Participants will have access to the study team during the home study phase with 24/7 telephone support. The primary outcome is time spent in target range between 3.9 and 10.0 mmol/L as recorded by CGM over the 8 week period. Secondary outcomes are HbA1c, time spent with glucose levels above and below target as recorded by CGM, and other CGM-based metrics in addition to insulin requirements. Safety evaluation comprises severe hypoglycaemic episodes, diabetic ketoacidosis (DKA) events and other adverse and serious adverse events.
Biomarkers of heterogeneity in type 1 diabetes: establishment of a biobank and an integrated approach to clinical and metabolic phenotyping of individuals with established T1DM. In this project the investigators are searching for biomarkers in 600 patients with established (>5 years) diabetes. The inter-relation and patterns of expression in clinical, (auto)immune, metabolic, inflammatory and other parameters, and (potential) biomarkers are investogated. Blood and urine samples are collected annually (over 3 years) in standardized conditions and biobanked. In addition, 150 patients will undergo additional metabolic testing (such as mixed meal-tests).
Type 1 Diabetes (T1D) affects 1.6 million Americans, and only 14% of young adults age 18-25 years achieve glycemic targets (glycosylated hemoglobin A1C <7.0%). Achieving glycemic targets is associated with reduced risk for both micro-and macrovascular complications, better neurocognitive function, and better diabetes quality of life. In lab studies, sleep deprivation led to impaired glucose tolerance and insulin sensitivity in adults without chronic condition and in one study of adults with T1D. Extending sleep in natural environments contributes to improved insulin sensitivity and glucose levels, neurocognition, and psychological symptoms in young adults without chronic conditions. Modifiable dimensions of sleep health (appropriate sleep duration, stability, and timing) are associated with better glycemic control in adults with T1D. Therefore, improving sleep duration, stability, and timing may be potential therapeutic targets to improve glucoregulation and clinical outcomes (diabetes self-management, neurocognitive function, and symptoms) in this high-risk population. The overall objective is to test and compare the effects of a cognitive-behavioral sleep self-management intervention (sleep extension and consistency in sleep timing) compared to an attention control condition (habitual sleep duration + diabetes self-management education) on improving sleep duration, stability, and timing, and glycemia (glycemic control and glucose variability) in short-sleeping young adults with T1D in a pilot randomized controlled trial.
The purpose of this feasibility study is to evaluate subject safety of using the Klue Health app utilizing meal gesture micro insulin dosing (meal gesture dosing) within the AHCL system in adult subjects with type 1 diabetes in a clinic setting.
Objective: To assess the efficacy and safety of an insulin-glucagon dual-hormone (DH) closed-loop system compared with an insulin-only single-hormone (SH) closed-loop system in adolescent with type 1 diabetes. Methods: In a 26-h, randomized, crossover, inpatient study, 20 children and adolescents with type 1 diabetes used two modes of the DiaCon Artificial Pancreas system: DH and SH closed-loop control. During each study period, participants will have one overnight stay, received three meals and performed exercise for 45 min (bicycle with estimated 50% V02max). Endpoint: The primary endpoint is sensor-derived percentage of time in hypoglycemia (<3.9 mmol/L).