View clinical trials related to Type 1 Diabetes.
Filter by:The goal of this longitudinal cohort study is to learn about a mHealth intervention in Type 1 Diabetes (T1D) The main question[s] it aims to answer are: - Does the intervention increase the amount of text messages between the mHealth software and participants? - Do the text messages from the Nudge software increase moderate to vigorous physical activity (MVPA) in participants? - Does the MVPA encouraged by the Nudge software improve the HbA1c levels of participants? Participants will: - Receive text messages from the Nudge software - Report physical activity goals via the text messages to the Nudge software - Wear both an accelerometer and an actigraph for three weeks (spread out across the beginning, 30 days, and 90 days of participation) - Complete surveys at the beginning of participation - Complete daily surveys while wearing the devices - Complete surveys at the end of participation - Record physical activity in study surveys
This research is being done to better understand how insulin effects muscle, blood, and the body in people with Type 1 Diabetes.
This early feasibility first-in-human study is a prospective single-arm single-center study of Sigi insulin patch pump. After a 1st day and night under medical surveillance during a hotel stay, Sigi system will be evaluated during 15 days at home in adults with type 1 diabetes.
Diabetes mellitus (diabetes) is a chronic condition that represents a major public health and clinical concern. Self-monitoring of blood glucose (SMBG) is a critical part of the care of individuals with diabetes. SMBG entails capillary fingerstick blood glucose testing multiple times per day. Many people with diabetes find this testing painful and cumbersome, often resulting in poor compliance to a glucose self-monitoring schedule. Furthermore, SMBG only provides limited visibility on daily and nightly glucose profiles, meaning that hypo- and hyperglycaemic episodes can be missed or detected with delay. The use of minimally invasive continuous glucose monitoring devices (CGMs) in diabetes management circumvents these challenges as CGMs measure glucose every few minutes over a period of 1-2 weeks through a sensor with a fine needle that is inserted once into a user's arm or abdomen. This enables periodic glucose measurement without repeat finger pricks and provides the user with a detailed glucose profile over the entire wear time of the sensor, thus enabling better adjustment of therapy or behaviour. In populations where CGMs are accessible to people with diabetes as standard of care and without additional cost, many people with type 1 diabetes have switched from SMBG via fingerstick to the use of CGMs permanently, using the devices continuously. This is rarely possibly for people with type 1 diabetes in the public sector in LMICs as CGMs are not provided as standard of care. Little data on effectiveness, feasibility, acceptability, and cost of the use of CGMs in LMIC populations is available to inform clinical models for the integration of CGMs into diabetes management. Furthermore, it has not been investigated if intermittent, as opposed to continuous use of CGMs provides clinical benefit. Intermittent use could be beneficial for people with diabetes who do not have the means to pay for continuous use of CGMs. This study aims to evaluate the effectiveness, feasibility, acceptability, and cost of intermittent and continuous use of CGM among people with type 1 diabetes in Kenya.
This study was planned to determine the effect of model-based digital game on metabolic control, self-efficacy and quality of life in children with T1DM.
Type 1 diabetes is associated with many longterm complications as retinopathy,neuropathy and nephropathy. Recently, several studies have linked type 1 diabetes to bone fragility.Studies conducted on patients with type 1 diabetes have concluded that bone is negatively affected in type 1 diabetes with impaired bone density,increased fracture risk and impaired bone turnover markers.
This is a single site, double-blind, placebo-controlled, crossover trial to quantify the effects of combination adjunctive therapy on glycemic control, ketogenesis during insulinopenia, insulin resistance, and diabetes burden and quality of life.
Single-center, double-blind, random-sequence study assessing the HDV dose-response relationship to Endogenous Glucose Production (EGP), Free Fatty Acids (FFA) and Glucose Disposal Rate (GDR) during a euglycemic clamp procedure following overnight stabilization of blood glucose with intravenous insulin (and, if needed intravenous glucose). EGP and GDR will be determined using established radioisotope methodology. The concentration of Hepatic Directed Vesicles (HDV) in the insulin lispro (LIS) infused during the clamp procedure will be varied such that the percentage of HDV-bound LIS will range from 0%, 1%, 10%, and 100%. Each participant will thus undergo four clamp procedures at the four different HDV levels. LIS will be infused at a constant dose (6 mU/m2/min) for each of the four procedures.
Current evidence suggests a bidirectional association between periodontitis and diabetes. Periodontal therapy improves short term HbA1c levels and is safe to perform. Most studies are focused on type 2 Diabetes. Literature about the correlation between periodontitis and type 1 diabetes is scarce, since no randomized clinical trials have been performed. The objective of the present clinical investigation is to evaluate the effects of nonsurgical treatment of periodontal disease on glycemic variability in patients with type 1 diabetes (T1DM). The hypothesis is that nonsurgical periodontal therapy affects glycemic variability in terms of time spent in hyperglycemia.
Predicting early onset neuropathy in people with type 1 diabetes