View clinical trials related to Type 1 Diabetes Mellitus.
Filter by:This study evaluates in a group of people with DM 1 the influence in parameters of oxidative stress of the treatments with the different current analogs of insulin
This open-label study will determine if chlorthalidone is safe and effective for the use of reducing urinary calcium excretion over 4 weeks in subjects with type 1 diabetes
This study addresses the critical need for improving Type 1 Diabetes (T1D) health outcomes in high-risk youth (A1C=9-12%; ages 10-17 yrs) (AIC: glycated hemoglobin) where suboptimal glycemic control has severe acute and long-term complications with potentially life threatening consequences. Lack of regular contact with T1D care providers, continued T1D nonadherence, and suboptimal behavioral and mental health functioning compromises the physical health of youth with T1D and the ability of T1D teams to provide effective treatment. If the aims of this study are achieved, this study will change T1D care practices by providing high-risk youth with T1D, and their parents, medical and behavioral health support via home telehealth intervention. This has the potential to significantly change access to T1D care, decrease time spent in hyperglycemia, reduce the frequency of hospital admissions, and improve glycemic control. In addition, this study's use of Multiphase Optimization Strategy (MOST), a highly efficient experimental strategy to determine effective intervention components, should be generalizable to all individuals with T1D, leading to cost-effective, home telehealth intervention programs. Innovative aspects include: 1) assessment of physical and behavioral health characteristics associated with high-risk status; 2) delivery of home telehealth that incorporates: 2a) medical and behavioral health care delivered with the endocrinologist and behavioral health specialist working together with high-risk youth; 2b) personalized intervention to improve T1D adherence and T1D clinical health outcomes; 2c) personalized intervention to improve mental health comorbidities and T1D clinical health outcomes; and 3) an underused methodological approach for optimizing intervention components to be delivered at point of care.
Primary Objective: To assess the relative bioavailability of sotagliflozin following single doses of 3 sotagliflozin prototype tablet formulations p1, p2 and p3 versus the reference tablet formulation in fasted conditions in healthy subjects. Secondary Objectives: - To assess the pharmacokinetic characteristics of sotagliflozin and its 3-O-glucuronide following single doses of 3 sotagliflozin prototype tablet formulations p1, p2 and p3 and of the reference formulation in fasted conditions in healthy subjects. - To assess the clinical and laboratory safety of single oral doses of 3 sotagliflozin prototype tablet formulations p1, p2 and p3 and the reference tablet formulation in fasted conditions in healthy subjects.
This clinical trial will identify exercise-related and emotional stress related effects on glycemic control in patients with type 1 diabetes using sensor-augmented pump (SAP) therapy.
The objectives of this clinical study is to evaluate the efficacy continuous glucose monitoring (CGM) use on glucose variability (GV) in preschool children with T1D treated with CSII. Downloads from CGM and CSII saved in pdf from will be retrospectively reviewed and analysed for all preschool children with type 1 diabetes in Slovenia. Glucose variability and other glycemic parameters will be analyzed separately for periods when CGM was used (CGM and SMBG data) and compared to periods when CGM was not used (SMBG only data).
Critical power is an important threshold in exercise physiology, and is an important determinant of the ability to tolerate high-intensity exercise. The ability to tolerate such exercise is drastically impaired in certain chronic conditions, such as type 1 diabetes. Whilst the most important physiological factors that determine critical power have yet to be determined, previous work from our laboratory suggests that it is related to the speed of oxygen uptake at the onset of exercise. This study will look to utilise "priming" exercise as an intervention to improve the speed of these oxygen uptake "kinetics", and thus critical power and exercise tolerance in individuals with type 1 diabetes. We hypothesize that oxygen uptake kinetics will be faster and critical power will be higher when exercise is performed with compared to without a prior bout of high-intensity priming exercise in a population of individuals with type 1 diabetes.
This clinical study will evaluate the safety of an innovative approach expected to be disease-modifying by stopping the auto-immune-mediated destruction of islet β-cells in the pancreas. Three doses of the investigational product will be tested in successive cohorts. Although safety is the first objective of this study, we will gather efficacy data and perform a set of immunological tests to further understand the mechanism of action of this new approach in young adults with recent onset type 1 diabetes.
The Type 1 Diabetes Prediction and Prevention (DIPP) Study in Finland is a population-based long-term clinical follow-up study established since 1994 in three university hospitals in Finland to understand the pathogenesis of type 1 diabetes (T1D), predict the disease, and find preventive treatment.
Adolescents and young adults with T1D and poor glycemic control (age 14-< 25 years, T1D duration >12 months, HbA1c 7.5-<11.0%, using an insulin pump or MDI)) will be randomly assigned to either CGM or BGM. Sample size will be 150. The primary outcome assessment will be HbA1c after 6 months. Secondary outcomes will include HbA1c, CGM metrics (control group will wear blinded CGM at 13 and 24 weeks), and quality of life measures. The randomized trial will be followed by a 6-month extension study during which the RCT control group will initiate CGM and the RCT CGM group will continue CGM.