Active clinical trials for "Diabetes Mellitus, Type 1"

The primary objective of this study is to determine the effects of semaglutide on kidney oxygenation and function in type 1 diabetes. The secondary objective is to determine the glycemic effects and safety of semaglutide in type 1 diabetes.

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.

The goal of this randomized trial is to determine the optimal combination and sequence of three enhancements for a team-based care model for patients living with diabetes in Chicago. The study aim is to determine optimization of intervention components. Participants will be randomly assigned to diabetes self-management training or remote glucose monitoring. After 6 months, participants will be rerandomized to a subsequent study arm (including a CHW support program) depending on a tailoring variable of change in A1c. Researchers will compare the final 6 study arms to see which combination and sequence of enhancements produces the most improvement in A1c.

A complication of diabetes mellitus is damage to nerves called neuropathy. There are several mechanisms involved that will lead to the development of neuropathy. Neuropathy can lead to foot ulcers, infections and amputations. Patients with neuropathy may also experience pain, which can be difficult to control and the medications are limited by side effects. Despite this there are no approved treatments to reverse the progression of neuropathy and the management of patients is focused on controlling blood glucose and other metabolic factors to prevent neuropathy and its symptoms from getting worse. Patients with type 1 diabetes are prescribed multiple daily injections (MDI) of insulin to manage their glucose control. However, insulin pump therapy and, more recently, automated insulin delivery (AID) or the Artificial Pancreas can be used as the insulin delivery method for patients with type 1 diabetes mellitus. Manchester Diabetes Centre is the first adult diabetes centre in Europe to pioneer and use a commercially-approved AID in clinical practice. Insulin pump therapy and AID have the advantage of being able to provide insulin at variable doses, which is closer to the natural process occurring within an individual without diabetes. Both are currently considered to be the most physiological method of insulin delivery and have been shown to improve glycaemic control, quality of life (QOL) and reduce the risk of hypoglycaemia (low blood glucose level). The investigators have previously shown in a small group of people that use of an insulin pump therapy may improve symptoms of painful neuropathy via a more stable glucose profile. The peaks and drops in insulin may make neuropathy worse. In this study the investigators aim to investigate the use of insulin pump therapy and AID in their effect on neuropathy. This will be in comparison to a control group of patients on MDI. The investigatorsbwill use a variety of neuropathy measures and symptom questionnaires to assess structural and functional neuropathy status. The investigators hypothesise that those patients receiving the newer technologies will demonstrate an improvement in symptoms and nerve regeneration. This finding would have a significant impact for patients as it would provide evidence to suggest that those patients with neuropathy should be put onto an insulin pump or AID to improve neuropathy and its symptoms. As these are treatments that are already available on the NHS to patients satisfying specific criteria this study aims to show benefit in this cohort of patients which can be implemented immediately in clinical practice.

Cardiovascular (CV) diseases are the most frequent type 1 diabetes (T1D) complications. A recent epidemiological study showed that patients with T1D have a two-fold CV mortality risk, even in case of good glycemic control. In addition, it has been shown that patients with T1D with no traditional CV risk factors had about a 80% higher risk of cardiovascular event compared to non-diabetic individuals. This indicates that further modifiable risk factors in relation to CV mortality remain to be identified. One of the candidates that could help to disentangle the factors associated with the increased CV mortality in T1D patients is glycemic variability which could contribute to diabetes complications. Indeed, severe hypoglycaemia, one of the most severe consequence of glycaemic variability, are associated with a higher mortality in patients with type 1 and type 2 diabetes. In order to evaluate the relation between glycemic variability, insulin therapy modalities and CV risk as well as some other questions related to health determinants of T1D, we are building up a large observational, prospective, multi-centric cohort study of patients gathering 15,000 patients with T1D, age above 6 years old, to perform the following: Collecting clinical information Evaluating Glycemic variability (assessed by the coefficient of variation of glucose (CV) calculated from automatically downloaded continuous glucose monitoring data (CGM) Biobanking including plasma, DNA, urine, saliva and hair. Collecting patients' reported outcomes through auto-questionnaires (online questionnaires). Doing an active follow-up for a period of 10 years with an intermediate visit every 3 years. Passive follow-up: link to national Health data system (Système National de Données de Santé, SNDS) in order to exhaustively collect health events as death, CV events and hospitalizations (including severe hypoglycemia).

To the investigator's knowledge, there are no data available in the current literature regarding the acute effects of postprandial hyperglycemia and insulin timing on myocardial perfusion in people with type 1 diabetes (T1D). Observational studies using CEU in type 2 diabetes demonstrate that postprandial hyperglycemia determines myocardial perfusion defects. The investigator hypothesizes that the combination of postprandial hyperglycemia and insulin increases pulse wave velocity (i.e., aortic stiffness) and myocardial vasoconstriction, thereby reducing myocardial perfusion in T1D when compared to healthy controls. Furthermore, the investigator hypothesizes in T1D that dosing insulin before meal intake will ameliorate these cardiovascular defects.

This study will explore the cerebral mechanisms of impaired awareness of hypoglycemia (IAH) in type 1 diabetics following exposure to experimental recurrent hypoglycemia (HG). To induce IAH, patients with T1D identified to have normal awareness of hypoglycemia (NAH) will undergo three 2-hour long hypoglycemic clamps. Neurochemical profiles will be measured by high field MRS before and after induction of IAH. Subject glycemic variability and activity/sleep for 1 week before each study will be monitored as all factors have been shown to alter responses to HG.

The China Alliance for Type 1 Diabetes (CAT1D) is committed to exploring and implementing the model of graded diagnosis and treatment of type 1 diabetes and comprehensive management of outpatient service, carrying out a series of educational activities for patients, and cooperating in the development of multi-center prospective clinical research on type 1 diabetes.

The main goal is to investigate whether beta cell mass is correlated to beta cell function after autologous faecal microbial transplantation (FMT) in patients with newly diagnosed type 1 diabetes

Type 1 diabetes requires people with type 1 diabetes to constantly monitor their blood glucose and adjust their insulin doses to try and keep glucose levels in range. Hybrid closed loop systems (also called artificial pancreas) consist of a sensor that continuously measures glucose levels, an algorithm that then decides every few minutes how much insulin to deliver and an insulin pump that then delivers the insulin. These systems have been shown in observational and randomized studies to improve glucose levels and have high levels of user satisfaction. The National Health Service (NHS) in the UK has launched a pilot for up to 1,000 people with type 1 diabetes to trial these devices for up to 1 year and the results of that pilot will be audited by clinical teams. This study will recruit people from that pilot and use well validated as well as bespoke questionnaires to assess the impact of this technology on various key patient reported outcomes such as depression, diabetes related distress and fear of hypoglycemia (low blood glucose). We will invite a small number of participants to take part in semi-structured interviews to gain a more detailed understanding of the benefits and challenges of using these devices, and the impact they have on people living with type 1 diabetes. We know that living with a partner with type 1 diabetes can also have a negative impact on quality of life, and so we will invite partners of people using the hybrid closed loops systems to complete some validated and bespoke questionnaires. A small sample will also be invited to participate in interviews. The data from this real-world study of the impact of hybrid closed loop systems on patient reported outcomes will be of value to clinicians, people with type 1 diabetes and policy makers in understanding the value of these systems to people with type 1 diabetes and their families.