View clinical trials related to Type1 Diabetes Mellitus.
Filter by:1. The accuracy of the sensors (Flash vs Enlite glucose monitoring) will be evaluated with a standardized breakfast test. Patients receive a standardized breakfast. The usual insulin bolus will be administered at breakfast. After breakfast, a venous blood sample is taken for 2 hours every 15 minutes to determine the blood sugar. At the same time, the glucose value shown by the sensors will be noted. A comparison of the blood glucose value with the data recorded by the sensor can evaluate the accuracy of the sensor and also estimate the lag-time between the sensor glucose and the venous glucose. 2. Patient satisfaction will be evaluated using a questionnaire that will be completed after the Enlite sensor has been worn for 1 month. 3. The development of skin reactions will be checked by a short questionnaire, supplemented with a picture of possible skin phenomena. 4. The data recorded by the FreeStyle sensor (average glucose,% above target,% within target,% under target, amount of hypoglycemia) in the month prior to sensor switching will be compared to the same data recorded by the Enlite sensor during the first month of use.
Subjects will undergo a 7±1 day outpatient, standard therapy phase during which sensor and insulin data will be collected. Subjects or their caregivers will manage their diabetes at home per their usual routine using the study CGM and remain on current MDI or pump therapy. This will be followed by a 5-day/4-night or from approximately 48 to 72 hours for children ages 2.0-5.9 years, hybrid closed-loop phase conducted in a supervised hotel/rental house setting.
The aim of this study is to investigate the effect of the use of DiabetesFlex in diabetes care compared to standard care in relation to patient involvement and relevance for specific group of persons with T1DM. The investigators hypothesize that the use of DiabetesFlex will lead to a higher degree of patient in-volvement, improved glycaemic control and a decrease in total number of consultations compared to standard care. Furthermore, the investigators aim to identify if a specific sub-population within the T1DM population will benefit significantly from the intervention.
This is a single-centre, randomised, double-blind, three-period, complete cross-over trial comparing the pharmacokinetic and the pharmacodynamic properties of BioChaperone® insulin lispro and the two active comparators Fiasp® and Novorapid® when given as a bolus on top of basal delivery with an insulin pump in subjects with type 1 diabetes mellitus. Each subject will be randomly assigned to a treatment sequence consisting of 3 dosing visits during which the subject will receive the investigational products. In a euglycaemic clamp setting, subjects will be given a bolus dose of 0.15 U/kg body weight. Throughout the glucose clamp procedure, blood glucose will be stabilised at a target level of 100 mg/dL by means of an intravenous infusion of glucose. Blood samples for pharmacokinetic assessment will be drawn at specified timepoints and glucose infusion rates and blood glucose concentrations will be recorded for pharmacodynamic assessment during the 10-hour clamp procedure after dosing.
Single Center, Double Blind, Active Comparator Controlled 2-Way Crossover Multiple Dose Safety, Tolerability and Efficacy Study
This is a randomized, placebo-controlled, double-blind study to evaluate the efficacy, safety, and pharmacodynamics (PD) of multiple doses of REMD-477 in subjects who have Type 1 diabetes and are currently receiving insulin treatment. This study will determine whether REMD-477 can decrease daily insulin requirements and improve glycemic control after 12 weeks of treatment in subjects diagnosed with Type 1 diabetes with fasting C-peptide < 0.7 ng/mL at Screening. The study will be conducted at multiple sites in the United States. Approximately 150 subjects with type 1 diabetes on stable doses of insulin will be randomized in a 1:1:1 fashion into one of three treatment groups.
Beta-cells release extracellular vesicles (EV) and exosomes under normal and pathophysiologic conditions. These EV contain beta-cell specific autoantigens which may trigger the immune response at the initiation of type 1 diabetes. In this study, beta-cell derived EV will be detected and characterized in human blood samples.
The purpose of this study is to reduce the frequency of hypoglycemia and severe hypoglycemic events in subjects who use insulin pens to treat their Type 1 Diabetes Mellitus (T1DM). Hypoglycemia is the number one fear of many individuals and families with someone who has type 1 diabetes, and this fear often prevents optimal glycemic control. It is expected that this protocol will yield increased knowledge about using a decision support system to help control the glucose level.
The purpose of the study is to determine the effects of insulin suspension at start of exercise in individuals with type 1 diabetes. A total of 3 sessions will be required for this project. The first will be a familiarization session that requires completed informed consent, anthropometric measurements (height, weight, body fat percentage), questionnaires, and a test of maximal aerobic fitness. The remaining 2 sessions will be steady-state aerobic exercise as well as circuit exercise.
The purpose of this study is to investigate the safety and therapeutic effect of ex-vivo expanded umbilical cord blood regulatory T cells adjunct with Liraglutide on autoimmune diabetes.