View clinical trials related to Type 1 Diabetes Mellitus.
Filter by:The purpose of this study is to evaluate the accuracy of the Cambridge Medical Technologies, LLC second generation (2nd Gen) LabPatch glucose sensing system compared to a laboratory glucose analyzer (YSI 2300 STAT Plus) and 2 commercial glucometers, OneTouch Verio and Freestyle Lite. The primary endpoint of this study is the mean absolute relative difference (MARD) for 2nd Gen LabPatch system compared to each of the above mentioned glucose references over a 6 hour outpatient visit.
This research will be conducted to evaluate the effect of digital game and video animation-based diabetes education on the quality of life of children with Type 1 Diabetes. HbA1c, diabetes knowledge and Quality of Life Scale in Children with Diabetes (PedsQL 3.0) score will be taken into consideration when evaluating the quality of life of children with type 1 diabetes.
This is a multicenter, Phase Ib, open-label, siplizumab dose-finding study in individuals aged 8-45 years with a Type 1 diabetes mellitus (T1DM) diagnosis. within 18 months of V0. Participants will be randomized 1:1:1:1 to one of four possible siplizumab dosing arms. All dosing arms will receive weekly siplizumab doses for a total of 12 weeks. After the completion of treatment, participants will undergo follow-up visits at weeks 12, 24, 36 and 52 which include longitudinal MMTTs. If indicated, participants will enter into long-term safety monitoring for up to an additional 48 weeks. Blood samples for mechanistic analyses will be obtained during the treatment phase and thereafter. Adults aged 18- 45 will be enrolled initially at the study sites. The primary objective is to identify a safe, metabolically favorable, dosing regimen for siplizumab in patients with type 1 diabetes that induces changes in T cell phenotypes observed with alefacept therapy in new-onset T1DM. The secondary objectives are to: 1. Assess the safety profile of siplizumab in recently diagnosed T1DM. 2. Assess the effects of siplizumab on residual beta cell function in recently diagnosed T1DM participants.
Investigators aim to develop an effective and safe treatment of autoimmune diseases through adoptive T regulatory cells transfer. Our objectives are to evaluate the safety and efficacy of autologous adoptive Treg (CD4CD25FoxP3 CD127 low regulatory) cell transfer to patients with refractory autoimmune diseases: Refractory lupus Nephritis, and adults' type1 diabetes mellitus. Patients and Methods: This is Non randomized open label phase 1 pilot study including ten patients with refractory lupus nephritis and ten patients with Type 1 diabetic patients. All patients will be subjected to Full history taking, clinical examination and pretreatment investigations according to the type of autoimmune disease then regulatory T cells (Tregs) identification and count, Treg isolation and expansion and finally administration of T reg cells and follow-up of adverse events and outcomes.
The purpose of this two-part multiple ascending dose study is to evaluate the safety and tolerability of multiple doses of MHS552 in adults with type 1 diabetes mellitus. Participants will be treated for 4 or 12 weeks followed by an 8 week follow-up period
This is a phase 1 study to demonstrate pharmacokinetic and pharmacodynamic similarity between HEC-Glargine and US-Lantus® using the euglycemic clamp technique in healthy male adult volunteers.
Studies have shown that tele-nursing practice is effective in children with Type 1 Diabetes Mellitus, but the number of studies conducted is very few. No study examining the concepts of metabolic control, self-efficacy, quality of life and anxiety together was found in the literature review. With this study, it is aimed that diabetes education given by tele-nursing has an effect on metabolic control, self-efficacy, quality of life and anxiety level of adolescents with type 1 diabetes, and that diabetic adolescents can easily obtain the information they need about nursing care when they cannot come to the clinic.
A cornerstone in the management and treatment of people living with type 1 diabetes (T1D) is to engage in regular physical exercise for a variety of health and fitness reasons. Despite these well-established benefits, many people with T1D experience their challenging glycaemic condition as a high barrier to exercise. The challenge of managing glycaemia around exercise together with fear of hypoglycaemia (FOH) remain major barriers to exercise in T1D patients, meaning that many are discouraged from exercise. If people with T1D wish to engage in exercise in a safe manner, a certain level of pre-planning before exercise is required in terms of insulin dosing and target glucose concentration. Numerous research projects have been performed in the morning where participants exercise in the fasted state, for logistical reasons, because of easier insulin management in fasting conditions and a lower risk of hypoglycaemia during or after the exercise bout. However, in reality, advanced planning of exercise is not always possible, and many patients may also wish to exercise after their meal. Hence, it is important to take into account the impact of prandial state on blood glucose responses to exercise in patients with T1D. While evidence on the importance of timing of exercise and on the benefits of postprandial exercise for improving glucose control is available in patients with type 2 diabetes, less studies have been conducted in T1D despite this being of high clinical importance. Therefore, more insight is needed into the glycaemic and metabolic effects of different postprandial exercise modalities aiming to reduce the risk of hypoglycaemia and improve glucose control, both during and after exercise. Postprandial exercise can be a useful strategy to improve glycaemic control but research in T1DM is very scarce, with only few studies that have been conducted and optimal exercise regimens remaining unknown. Summarizing, prandial state is an important factor to take into account in exercise in people with T1D, with glycaemic responses that substantially vary between fasted or postprandial exercise. Performing exercise in the postprandial period is of high clinical relevance however there is a scarcity of research in this area. Therefore, more studies that examine the glycaemic and metabolic effects of different modalities of postprandial exercise in people with T1D are needed. All of this aiming to simplify exercise-associated countermeasures and improve (postprandial) glucose control, and thereby reduce barriers to PA in this population.
This is a study assessing the feasibility of using the insulin-only configuration of the iLet bionic pancreas with initiation in pump-naïve people with type 1 diabetes in a primary care practice with either in-person training and follow-up (PC-IP) or with training and follow-up via telehealth (PC-TH). As a comparison, the iLet will be initiated by an academic endocrinology practice with either in-person training and follow-up (EN-IP) or with training and follow-up via telehealth (EN-TH).
The major aim is to evaluate accuracy of 2 Continuous Glucose Monitoring Systems (CGMS) : Dexcom G6® and FreeStyle Libre® in standardized hypoxemia conditions (artificial normobaric hypoxia). Our purpose is to demonstrate the good performance and calibration of these CGM sensors in hypoxemia conditions.