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Showing 1-20 of 687 trials
NCT00198146
The primary purpose of this study is to determine the efficacy and safety of daclizumab in preventing the progression of diabetes in children who have just been diagnosed with type I diabetes. Additional purposes of the study are to investigate the amount of drug in the children, how quickly it is eliminated from the blood, and analyze the effect of the drug on the immune reaction to diabetes.
NCT06951074
Type 1 Diabetes is a chronic autoimmune disease. It results from autoimmune destruction of pancreatic Beta cells leading to absolute insulin insufficiency. The establishment of pluripotent like human stem cells derived from adipose tissue derived mesenchymal cell origin have introduced a new potential source for cell therapy in type 1 diabetic patients, especially in light of recent successes in producing glucose-sensitive insulin secreting cells and this will be the scope of this study. In the last decade, human clinical trials of introducing insulin producing stem cells from various origins were approved and conducted.
NCT02849288
The trial is designed to assess safety and feasibility of the Bigfoot Biomedical Type 1 Diabetes Management System (T1DMS) in up to 50 participants in a closely monitored Clinical Research Center (CRC) environment.
NCT00962026
This study is being done to see if an investigational drug called rilonacept is safe to use in patients with type 1 diabetes, and if it can slow the loss of the body's ability to secrete insulin in patients who are still able to make a small amount of insulin.
NCT07493122
This is a first-in-human (FIH) study designed to assess the safety, tolerability, and pharmacokinetic (PK) profile of IMC-S118AI in single-ascending dose (SAD) and multiple-ascending dose (MAD) regimens. This study will potentially also explore the effects of multiple-dosing regimens on preservation of beta-cell function in Stage 3 Type 1 diabetes.
NCT02611232
The main objectives of the trial are to study whether daily treatment with liraglutide improves insulin secretion and glucose metabolism, and whether liraglutide treatment is tolerable and safe in subjects with preclinical type 1 diabetes aged 18-30 years.
NCT05742243
The goal of this clinical trial is to test whether the combination of two safe immune therapies called abatacept and nasal insulin can preserve pancreas function in recently-diagnosed type 1 diabetes. When type 1 diabetes is first diagnosed, the pancreas is still able to make small amounts of insulin, which helps control glucose levels. Preserving pancreas function can make glucose control easier and reduce the need to use injected insulin. Participants will be asked to inject abatacept under their skin once per week and inhale nasal insulin or nasal placebo using a spray for 10 consecutive days initially and twice per week thereafter. The treatment period is for 48 weeks, with another 48-week follow-up period.
NCT00108004
This open-label, multicenter study is designed to investigate the clinical utility and safety of pramlintide treatment in subjects with type 1 and type 2 diabetes who are failing to achieve the desired level of glycemic control using insulin therapy.
NCT00214214
The rationale for the study is to determine if Campath-1H can be used in patients recently diagnosed with type I DM, to induce a state of immunological unresponsiveness such that subjects can safely preserve beta cell mass and eliminate or lower insulin requirements, preserving excellent metabolic control.
NCT05368402
Primary objective \- To determine whether oral ladarixin versus placebo adjunctive therapy improves glycemic control in overweight, insulin resistant (IR) adult subjects with type 1 diabetes (T1D). Secondary objectives * To ascertain the effect of ladarixin on glycemic variability as per CGM derived parameters. * To determine the safety of oral ladarixin versus placebo adjunctive therapy in overweight, IR adult subjects with T1D.
NCT01722240
The glucose lowering effects of GLP-1 agonists are well established in subjects with type 2 diabetes, however, these have not been studied prospectively in subjects with type 1 diabetes. The investigators have, therefore, designed this study to investigate the central hypothesis that in patients with type 1 diabetes, Liraglutide has a glucose lowering effect. A major secondary objective of this study is to elucidate the mechanisms responsible for its glucose lowering effects and those involved in reducing the insulin dose. The specific aims of this proposal are: Hypothesis 1: Treatment with Liraglutide in patients with type 1 diabetes decreases HbA1c, fasting, postprandial and the overall mean glucose concentrations while decreasing the dose of insulin required. Hypothesis 2: Treatment with Liraglutide in patients with type 1 diabetes decreases basal and postprandial glucagon concentrations and increases basal and postprandial C-peptide concentrations. Hypothesis 3: Treatment with Liraglutide in patients with type 1 diabetes delays gastric emptying.
NCT05594563
The goal of this clinical trial is to test a drug known as DFMO in people with Type 1 Diabetes (T1D). The main question\[s\] it aims to answer are: * Does it reduce stress on the cells that make insulin? * Does it preserve what is left of the body's insulin production? Participants will take either DFMO or a placebo (looks like DFMO but has no active ingredients) two times a day for about 6 months. Participants will have 6 in person visits and 1 phone visit over a period of 12 months. Visits will include blood draws urine collection and other tests.
NCT00989547
Type 1 diabetes (T1D) is still associated with tremendous morbidity and premature mortality. Patients require multiple daily insulin injections throughout their lives as well as close monitoring of their diet and blood sugar levels to prevent complications. Unfortunately, there is presently no permanent cure for diabetes. Whole pancreas or islet cell transplantation is available only to a very limited number of patients and necessitates potential lifelong immunosuppressive therapy. Autologous stem cell transplants have been used successfully for ALL (acute lymphoblastic leukemia), AML (acute myeloblastic leukemia) and for the treatment of a variety of cancers including breast cancer and neuroblastomas, and more recently for the treatment of autoimmune disorders such as multiple sclerosis (MS), lupus-like disease, and rheumatic disorders. Recently it was shown that bone marrow-derived stems cells transplanted into diabetic mice led to reduced hyperglycemia within 7 days after transplantation and was sustained until they were sacrificed at 35 days post-transplantation. The investigators' goal is to transfuse autologous umbilical cord blood into 23 children (Germany 10 and 20 Controls) with T1D in an attempt to regenerate pancreatic islet insulin producing beta cells and improve blood glucose control. As secondary goals, the investigators aim to track the migration of transfused cord blood stem and study the potential changes in metabolism/immune function leading to islet regeneration.
NCT07395050
Type 1 diabetes (T1D) is a persistent and gradually increasing genetic autoimmune disease requiring life-long management. The disease commonly impacts children. However, a quarter of cases are diagnosed in adults. The pancreatic islet beta-cells are responsible for producing insulin, a peptide hormone that is involved in the tight regulation of blood glucose levels. In T1D, the beta-cells are mistakenly destroyed by autoreactive T cells resulting in insulin deficiency and an inability to regulate blood glucose levels. The cause for such an autoimmune reaction to beta-cells is under active investigation. T regulatory cells (Tregs), are specialized immune cells that typically act to control your immune system. Tregs can be modified in the laboratory to recognize and deactivate T1D-causing cells. This process is done by inserting a piece of DNA (the molecules inside cells that carry genetic information and pass it from one generation to the next) into the Tregs. A non-infectious virus called a lentivirus will carry the piece of DNA into the cells that were collected from a donor. Tregs are then grown to large numbers in the laboratory and stored for treatment of T1D. It is not known whether these Tregs cells will treat T1D.
NCT06524960
Type 1 diabetes (T1D) arises from abnormal immune cell-mediated injury to beta cells that make insulin. The injured beta cells can then no longer make the needed amount of insulin to stay healthy. However, in the early stages of T1D, some beta cells are still alive and functioning. Treatment to protect the beta cells against injury at this time could slow the progress of disease. Denosumab is an approved treatment for osteoporosis (a disease that thins and weakens the bones), high blood calcium levels, bone cancer, and other bone problems in patients who have cancer. The research team has found that the bone pathway that denosumab works on to treat these bone conditions also has effects on the health of the beta cells. Lab studies suggest that denosumab may protect and/or increase the number of beta cells and improve how well they work. This study will test whether denosumab is safe and improves beta cell function and blood sugar control in people with early T1D.
NCT01827735
Type 1 diabetes is the most common severe chronic autoimmune disease worldwide and is caused by the autoimmune (loss of self tolerance) mediated destruction of the insulin producing pancreatic beta cells thus leading to insulin deficiency and development of hyperglycaemia. Currently, medical management of type 1 diabetes focuses on intensive insulin replacement therapy to limit complications (retinopathy, nephropathy, neuropathy); nevertheless clinical outcomes remain sub optimal. There are intensive efforts to design novel immunotherapies that can arrest the autoimmune process and thereby preserve residual insulin production leading to fewer complications and better clinical outcomes. The vast majority of genes that contribute to susceptibility to type 1 diabetes have been found to encode proteins involved in immune regulation and function. In particular, several susceptibility proteins are involved in the interleukin 2 (IL-2) pathway that regulates T cell activation and tolerance to self antigens. Aldesleukin is a human recombinant IL-2 product produced by recombinant DNA technology using genetically engineered E. coli stain containing an analog of the human interleukin-2 gene. There is substantial nonclinical, preclinical and clinical data that ultra low dose IL-2 (aldesleukin) therapy can arrest the autoimmune mediated destruction of pancreatic beta cells by induction of functional T regulatory cells. However, prior to embarking on large proof of concept trials in type 1 diabetes it is essential that the optimum dose of IL-2 (aldesleukin) is determined. The objective of this study is to establish in patients with type 1 diabetes the optimal dose of IL-2 (aldesleukin) to administer in order to increase T regulatory cell response.
NCT02518945
This is a single center, prospective, randomized, double blinded placebo controlled study conducted I patients with type 1 diabetes.The aim of this study is to examine the additive effects of GLP-1 agonist and SGLT2 inhibitor in patients with type 1 diabetes in terms of possible improved glycemic control, reduced glycemic variability, reduced insulin dosages, additional effects of weight loss and blood pressure reduction.
NCT05153070
Type 1 diabetes (T1D) is caused by the destruction of insulin-producing cells by effector T cells (Teffs), due to a deficiency of regulatory T cells (Tregs). Ciclosporin effectively blocks the Teffs and controls diabetes, but cannot be considered as a long-term treatment. Low-dose interleukin-2 (ld IL-2) activates and expands Tregs in humans. Hence, Ld IL-2 in patients in whom the autoimmune process was blocked early by a short treatment (2 months) of cyclosporine should restore immune homeostasis and maintain some insulin production over the long term.
NCT05822609
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.
NCT00891995
The purpose of this study is to find out if very tight blood glucose control from the onset of Type 1 Diabetes can preserve beta cell function. Study subjects will be randomly assigned to receive either standard diabetes management or intensive diabetes management, which involves several days of closed loop therapy followed by home use of a continuous glucose monitor and insulin pump.