View clinical trials related to Type 1 Diabetes Mellitus.
Filter by:The purpose of this proposed study is to assess the use of a new feature of the Control-IQ system, MyTDI.
CoYoT1 to California (CTC) was initiated to develop a patient-centered, home telehealth care model for young adults (YA) ages 16-25 with T1D. It is a 2x2 factorial design, 15-month intervention. Eighty participants will be randomized to Standard Care or CoYoT1 Care, which is delivered by telehealth or in-person. CoYoT1 Care is a patient-centered care model that consists of three major components: shared decision making (patient and provider agree upon priorities for the medical visit), autonomy and supportive care (provider training in communication strategies such as motivational interviewing), and goal setting and action planning (provider training to coach YA in setting SMART goals, developing action plans, and designing follow up plans). Additionally, didactic expert-led sessions (Standard Care) or peer-led, YA-driven group sessions (CoYoT1 Care) are included. At the end of the study, a focus group will be completed to assist in determining which features YA felt were critical to their success from the telehealth intervention, group components, and provider behaviors. ***COVID-19 Update: Due to current hospital and clinical policy adaptation for COVID-19, all participants who were randomized into in-person appointments will now receive care via Telehealth. Telehealth has been implemented hospital-wide and will be the temporary delivery of care method during this pandemic. Participants have been notified of this change and given instruction on how to participate in a Telehealth appointment.
Observational study about effectiveness and safety of continuous subcutaneous insulin infusion compared to multiple dose insulin injections in Type 1 Diabetes Mellitus (T1DM) adult patients in routine clinical practice.
The suggested clinical trial is part of the KidsAP project funded by the European Commission's Horizon 2020 Framework Programme with additional funding by JDRF. The project evaluates the use of the Artificial Pancreas (or closed loop system) in very young children with type 1 diabetes (T1D) aged 1 to 7 years. The suggested trial is an outcome study to determine whether 24/7 automated closed loop glucose control will improve glucose control as measured by time in range compared to sensor augmented pump therapy. In the extension phase, the purpose is to evaluate the effect of long-term home use of 24/7 automated hybrid closed loop insulin delivery on glucose control (UK sites only). The study adopts an open-label, multi-centre, multi-national, randomised, two period, cross-over design study, comparing two 16-week periods during which glucose levels will be controlled either by a closed loop system (intervention period) or by sensor augmented pump therapy (control period). Participants will complete a 2 to 4 week run-in period, followed by two treatment periods that will last 16 weeks each, with a 1 to 4 week washout period in between. The order of the two treatments will be random. A total of up to 80 young children aged 1 to 7 years with T1D on insulin pump therapy (aiming for 72 randomised subjects) will be recruited through paediatric outpatient diabetes clinics of the investigation centres. Prior to the use of study devices, participants and parents/guardians will receive appropriate training by the research team on the safe use of the study pump and continuous glucose monitoring device, and the hybrid closed loop insulin delivery system. Carers at nursery or school may also receive training by the study team if required. During the closed loop study arm, subjects and parents/guardians will use the closed loop system for 16 weeks under free-living conditions in their home and nursery/school environment without remote monitoring or supervision by research staff. During the control study arm, subjects and parents/guardians will use sensor augmented pump therapy for 16 weeks under free-living conditions in their home and nursery/school environment. All subjects will have regular contact with the study team during the home study phase including 24/7 telephone support. The primary endpoint is time spent in target range, between 3.9 and 10.0 mmol/l as recorded by CGM. Secondary outcomes are the time spent with glucose levels above and below target, as recorded by CGM, and other CGM-based metrics. Safety evaluation comprises assessment of the frequency and severity of hypoglycaemic episodes and diabetic ketoacidosis (DKA). During the extension phase, participants will have follow-up contacts every 3 months. The primary endpoint is time spent in target range, between 3.9 and 10.0 mmol/l as recorded by CGM, over 18 months from the end of the primary phase, as compared to sensor augmented pump therapy during the primary phase. Secondary outcomes as well as safety and utility will be assessed as per primary phase.
In pregnancies associated with diabetes, lowering glucose to the recommended targets to prevent adverse health outcomes often leads to significant hypoglycemia. Hybrid closed-loop (HCL) therapy, automated insulin delivery using an insulin pump getting feedback from a continuous glucose monitor (CGM), may improve outcomes. This exploratory, novel pilot feasibility randomized clinical trial will evaluate pregnant women with type 1 diabetes (T1D) on HCL therapy or Sensor-Augmented Pump Therapy (SAPT, non-communicating pump and CGM) from the 2nd trimester, throughout pregnancy, and 4-6 weeks post-partum. Comparisons will be made on safety (Specific Aim [SA] 1), indices of glycemic variability and fear of hypoglycemia (SA 2), and quality of life and device satisfaction (SA 3) between groups. Exploratory SA 4 will compare maternal and fetal outcomes between groups. Safety data will include episodes of severe hypoglycemia requiring 3rd party assistance, diabetic ketoacidosis, and skin reactions. Glycemic control will be measured by CGM time spent in glucose ranges (<63, 63-140, >140 mg/dL) and other measures of glycemic variability. Subjects will fill out surveys (Fear of Hypoglycemia, a quality of life survey, and 2 questionnaires about device satisfaction) at baseline, throughout gestation, and early post-partum. Data on maternal and fetal outcomes will be collected. Findings will reveal the safety profile and glucose control with a novel therapy for pregnant women with type 1 diabetes.
The present study wants to compare the Dexcom G6® continuous glucose monitoring (CGM) system (experimental group) with the FreeStyle Libre flash glucose monitoring (FGM) system (control group). The ALERTT1 trial will have three phases: a baseline, study, and extension phase. During the baseline phase, eligible patients will be screened for in- and exclusion criteria, wear a blinded Dexcom G6® for 28 days, together with their FreeStyle Libre FGM system, and receive a uniform education moment. In the study phase, patients will be randomized into two groups (1:1): the experimental group will use an unblinded Dexcom G6® CGM for 6 months, the control group will keep using the FreeStyle Libre FGM system for 6 months. Before the 6 month time point is reached, patients in the control group will wear a blinded Dexcom G6® CGM for 28 days, together with their FreeStyle Libre FGM. In the extension phase, patients in the initial control group will start using unblinded Dexcom G6® for 30 months. The initial experimental group will keep using the unblinded Dexcom G6® for the next 30 months.
The objective of this randomized crossover clinical trial is to 1) assess the efficacy and safety of an automated insulin delivery (AID) system using a Model Predictive Control (MPC) algorithm versus sensor augmented pump therapy (SAP)/Predictive Low Glucose Suspend (PLGS) in people with type 1 diabetes, and 2) assess the impact of different meal macronutrient content on glucose control when using AID and SAP.
The overall goal of this study is to enroll pregnant women with type 1 diabetes and follow their glycemic outcomes prospectively throughout pregnancy and into the post-partum period. The investigators anticipate that when compared to subjects using an Artificial pancreas system (AP) as part of a future protocol, this comparator group of subjects undergoing usual care will exhibit less time in target continuous glucose monitoring (CGM) glucose range defined as 63-140 mg/dL and an increased duration of hypoglycemia with CGM glucose <63 mg/dL.
This single center case control study will assess differences in bone structure between women and men with longstanding type 1 diabetes (diabetes duration>/= 25 years) and healthy controls.
The Automated Insulin Delivery (AID) System is an investigational insulin delivery device being developed for use for participants with diabetes. The purpose of this study is to assess the safety of the AID system and to test whether the AID System functions as designed. The study will last about 3 months with up to 6 days of inpatient time.