View clinical trials related to Type 1 Diabetes.
Filter by:A prospective monocentric " before and after " study, ruled in 2 periods of 3 months : during the first period, the patient will adjust insulin treatment as usual, during the second period, the patient will adjust insulin treatment with IRTA support
This is a single arm study comprised of a series of feasibility studies.
The primary purpose of this study is to evaluate the safety and efficacy of combining SGLT2 inhibitors with closed loop control (CLC).
This multi-center randomized control trial (RCT) will compare efficacy and safety endpoints using the insulin-only configuration of the iLet Bionic Pancreas (BP) System versus Usual Care (UC) during a 13-week study period. Participants may be enrolled initially into a screening protocol and then transfer into the RCT protocol, or they may enter directly into the RCT protocol. The RCT will be followed by an Extension Phase in which the RCT Usual Care (UC) Group will use the insulin-only configuration of the iLet Bionic Pancreas (BP) System for 3 months. At the completion of use of the BP system in the RCT only, participants will enter a 2-4 day Transition Phase and be randomly assigned to either transition back to their usual mode of therapy (MDI or pump therapy) based on therapeutic guidance from the iLet BP System or transition back to their usual mode of therapy based on what their own insulin regimens were prior to enrolling in the RCT. There is an optional ancillary study to assess the safety of utilizing self-monitored blood glucose (SMBG) measurements instead of continuous glucose monitor (CGM) measurements as input into the iLet for ~48-60 hours. The Study is intended to mirror a real-world situation where CGM may not be available for an extended period of time (eg, user runs out of sensors and is awaiting new shipment).
This is a phase II prospective, interventional, open-labeled, proof-of-concept study. 2 years per participant, 2 years 6 months in total Total n=6 The primary objective is to assess the safety of human pancreatic islet transplantation into the ACE of participants with T1D. Safety analyses will involve examination of the incidence, severity, and type of treatment emergent AEs reported, and changes in vital signs, ophthalmic status and laboratory test results from baseline (Day 0 pre-transplantation) to specified time points throughout the study.
Background: Inhibiting the sodium-glucose cotransporter-2 (SGLT2) has been observed to reduce risk of cardiovascular events and kidney failure in type 2 diabetes. The exact mechanisms of the beneficial effects of SGLT2 inhibition (SGLT2i) are still unknown. Kidney hypoxia has been demonstrated in diabetic kidney disease and SGLT2i is thought to relieve hypoxia in the kidneys. Mitochondrial dysfunction and autonomic dysfunction might also contribute to kidney hypoxia. Objective: The primary aim of the study is to assess the acute effects of SGLT2 inhibition on parameters reflecting oxygenation and oxygen consumption of the human kidney in persons with type 1 diabetes. Exploratory aims are to investigate acute changes in oxygen availability and oxygen access to the kidneys after SGLT2i. This include measures of peripheral blood oxygenation, mitochondrial function and autonomic function. Methods: Acute intervention study with oral dapagliflozin given in two doses each of 50 mg or matching placebo as intervention. Kidney oxygenation and perfusion parameters will be assessed by blood-oxygen-dependant level magnetic resonance imaging. Mitochondrial function will be assessed by extracellular flux analysis on lymphocytes. Autonomic function will be assessed by measuring baroreflex sensitivity. Design: Randomized, double blinded, placebo-controlled, cross-over intervention study. Study population: Fifteen healthy controls are recruited by advertisement and 15 patients with type 1 diabetes recruited from Steno Diabetes Center Copenhagen. Endpoints: Primary end-point: Renal cortical and medullary oxygenation (T2*). Exploratory end-points: Renal cortical and medullary perfusion, renal artery flow, renal oxygen consumption, peripheral capillary oxygen saturation (SpO2), arterial oxygen partial pressure (PaO2), arterial oxygen saturation (SaO2), lymphocyte mitochondrial function, baroreflex sensitivity. Timeframe: Inclusion of patients from January 2020. Last patient last visit January 2021. Data analysis completed spring 2021, presentation autumn 2021 and publications Winter 2021.
This proof-of-principle study to assess effects of different doses (mini and micro) of subcutaneous glucagon analog Dasiglucagon (Zealand Pharma, Copenhagen, Denmark) on the change in blood glucose concentration during moderate-intensity exercise in people with T1D.
Team Clinic is a new care approach for middle and high school aged patients living with T1D and their families. This study is a 15-month randomized control trial (RCT) that consists of Virtual Team Clinic Care appointments (primarily telemedicine, and in-person as necessary) and Virtual Team Clinic group appointments with a multidisciplinary diabetes care team. Assignment into 1 of 4 intervention groups Team Clinic Care vs. Standard Care which consist of either Virtual Team Clinic Group or no group. Groups: 1. Standard Care - No Group 2. Standard Care - Virtual Team Clinic Group 3. Team Clinic Care - No Group 4. Team Clinic Care - Virtual Team Clinic Group Virtual Team Clinic group sessions will be facilitated by clinical care team (e.g., Registered Dietician, Social Worker, Registered Nurse, etc.) - Patients and parents will attend their own online session
This study will be a prospective, single center, randomized controlled parallel group open-label trial. Participants with insulin requiring diabetes mellitus who have been offered an organ for living or deceased donor kidney transplantation will be recruited prior to transplantation surgery. Patients will be randomized in a 2:1 fashion to AP (6 patients) and conventional treatment groups (3 patients). At the end of the subject's post-operative in-patient stay, participants will have the option of wearing a blinded CGM at home for 4 weeks while treating themselves with multiple daily injections (MDI).
The purpose of this study is to measure the levels of certain substances (biomarkers) in the body that may indicate the triggers of Type 1 Diabetes, to find a better way to diagnose the disease, as well as to follow its progression.