View clinical trials related to Type 1 Diabetes.
Filter by:Human recombinant interleukin-2 (rhIL-2) is a biological signalling protein playing a key role in the regulation of the immune system. At high doses, rhIL-2 activates the immune effectors T cells (TEFFS) while at low doses rhIL-2 induces and activates regulatory T cells (TREGS), a population of immune cells controlling the immune Teff response. In patients with Type 1 Diabetes (T1D), TREGS fail to control the autoimmune destruction by TEFFS of pancreatic beta-cells producing insulin. The investigator recently showed that rhIL-2 at low dose is well tolerated in patients with an autoimmune disease and in adults with established T1D, inducing TREGS without effects on TEFFS. The investigators aim to use rhIL-2 at low dose to induce/stimulate TREGS in young recently diagnosed T1D patients. This study will investigate the dose effect relationship of low dose rhIL-2 on TREG induction such as to optimize the risk benefit ratio of this treatment in T1D. Through Treg induction, the investigators aim to protect the remaining/regenerating pancreatic β-cells from autoimmune destruction, thus improving or even curing T1D.
This is a multicenter feasibility study. Up to 85 subjects will be enrolled in the study. The goal of the study is to demonstrate that the Hybrid Closed Loop (HCL) System is safe to be used in an even larger study outside of hospital.
"Closed loop artificial pancreas" systems have been under development for the control of blood sugars in those living with diabetes. These systems consist of a continuous glucose sensor, which sends a signal to a computer program that automatically determines how much insulin to give. The computer program then tells an insulin pump to deliver the insulin. While such systems have been tested under a number of conditions, post-meal blood sugars are difficult to control. This study is designed to see if liraglutide, a glucagon like peptide receptor agonist, can help minimize the post meal blood sugar spikes in subjects with type 1 diabetes while they are on a closed loop system.
The study is designed as an open labeled pilot trial to analyze the acute responses of glucose, GLP-1, GIP, insulin secretory,and glucagon to a mixed meal tolerance test (MMTT) or intravenous glucose tolerance tests (IVGTT) with and without pretreatment with Exenatide (Byetta) 5 mcg sc. The investigators will also test the effects of Exenatide on gastric emptying during the MMTT.
The purpose of this study is to determine if patients have more hypoglycemic episodes the first 3 days following pump start compared to their usual number of hypoglycemias with our actual pump initiation protocol.
The conventional glucocorticoid replacement therapy in primary adrenal insufficiency (Addison's disease) renders the cortisol levels unphysiological, which may cause symptoms and long-term complications. The majority of Addison's patients have other organ-specific autoimmune disease, which poses challenges to the replacement therapy. Of particular interest is the combination of Addison's disease and type 1 diabetes, since cortisol affects glucose homeostasis. The clinical experience is that this subgroup of patients is difficult to treat, but very little research has been done to understand and improve their situation. Glucocorticoid replacement is technically feasible by continuous subcutaneous hydrocortisone infusion, and can mimic the normal diurnal cortisol rhythm. This pilot study aims to further evaluate continuous subcutaneous hydrocortisone infusion treatment in terms of metabolic effects especially glycemic control in patients with the combination of Addison's disease and type 1 diabetes in an 5 months cross-over design open clinical pilot study.
Background/Justification: Regular physical activity (PA) has substantial health benefits in persons with type 1 diabetes (T1D), including reduced risk of complications and cardiovascular mortality. Despite these benefits, individuals with T1D remain significantly less active than their peers without diabetes. Two major factors likely explain the low rates of PA in young people with T1D: (1) fear of post-exercise hypoglycaemia, particularly nocturnal hypoglycaemia, and (2) a lack of empirical evidence for the efficacy of PA for achieving optimal glycaemic control. A number of acute exercise trials recently demonstrated that the inclusion of vigorous intensity PA in conventional moderate intensity (i.e. walking) PA sessions may overcome these limitations. No studies have tested the efficacy of high intensity PA for reducing the risk of exercise-related hypoglycaemia or glycaemic variability in a randomized controlled trial (RCT). Study Hypotheses: In persons 15-35 years of age living with T1D, this study will test the hypotheses that (1) the addition of intermittent vigorous intensity PA to a moderate intensity intervention will reduce the time spent in hypoglycaemia in the 12 hour period following exercise and (2) the addition of intermittent vigorous intensity PA to a moderate intensity PA intervention will elicit significant improvements in glycemic excursions, as measured by the Mean Amplitude of Glycaemic Excursions (MAGE), in the 12-hour period following exercise.We are also exploring the hypothesis that reducing the risk of hypoglycemia will lead to a sustained increase in physical activity one year after randomization.
This study will test the hypothesis that a wearable automated bionic pancreas system that automatically delivers both insulin and glucagon can improved glycemic control vs. usual care for young people with type 1 diabetes 12-20 in a diabetes camp environment.
This study is for adults and adolescents with type 1 diabetes. The purpose of this study is to learn more about an investigational system to measure blood glucose. This system does not require blood to be drawn from the body, and it does not require a glucose sensor to be worn under the skin (subcutaneously). This device instead estimates blood glucose levels by shining infrared light on the skin and then using sophisticated statistical analysis on how the light bounces back or gets absorbed (spectral data). The researchers in this study will compare the accuracy of the new device to glucose measurement devices that are already approved by the FDA, including glucose meters and subcutaneous continuous glucose monitoring (CGM) sensors. Information learned from this study will be used in the development of tools for managing diabetes.
Glucose control is necessary to avoid the immediate and long-term adverse effects associated with type 1 diabetes, and frequent self-monitoring of blood glucose is the first important step to achieving glucose control. Data suggest that large proportions of adolescents and young adults fail to adhere to standard guidelines of self-monitored of blood glucose testing and have hemoglobin A1c levels >7.5%. A finite period of poor metabolic control can lead to increased risk of medical complications over an individual's lifespan, necessitating novel interventions to improve self-monitored blood glucose testing and metabolic control in emerging adults with type 1 diabetes. The investigators treatment approach, which provides direct tangible reinforcement for objective evidence of behavior change, is efficacious in decreasing substance use, reducing weight, and improving medication adherence. The purpose of this project is to develop and pilot test an intervention based on behavioral economic principles for improving self-monitored blood glucose testing in young persons with type 1 diabetes. In this pilot study, patients will text in, via cell phones, each time they test, and a return text will inform them of reinforcer vouchers earned. The investigators will collect data on self-monitored blood glucose testing frequency and A1c levels preceding treatment initiation and throughout a 6 month treatment period. If promising, a randomized trial will lead to larger scale evaluations of reinforcement interventions alone, or in combination with multimodal treatment approaches, and it may be applied to other clinical issues such as adherence to continuous glucose monitoring. Importantly, this intervention can be administered remotely and in an automated fashion, allowing for widespread adoption if efficacious.