View clinical trials related to Type 1 Diabetes Mellitus.
Filter by:Type 1 diabetes is an autoimmune disease in which the insulin-producing pancreatic beta cells are destroyed, resulting in poor blood sugar control. The purpose of this study is to determine the safety and effectiveness of islet transplantation, combined with immunosuppressive medications and medications to support islet survival for treating type 1 diabetes in individuals experiencing hypoglycemia unawareness and severe hypoglycemic episodes.
The investigators aim to show that quantitative analysis of doppler flow velocity waveforms i.e. ultrasound which is a nonāinvasive and very safe means of assessing blood flow; recorded in the proximity of terminal microvascular beds of interest, (i.e. the forearm and ocular circulation) can sensitively detect and track local changes in microvascular haemodynamics i.e. the function of the small blood vessels that are found in the back of the eye and in the forearm. The investigators also aim to relate change in the doppler spectral flow velocity waveform i.e. the ultrasound signal, in the central retinal artery to changes in geometry and tone of the vasculature (or changes in the structure and function of small blood vessels) in response to inhaled oxygen and carbon dioxide. The geometry and tone of the vasculature (or Blood Vessels) can be measured by taking photographs of the back of the eye.
The purpose of this study is to see whether IN-105 (oral insulin) is able to control increase in blood glucose after eating a meal. This study will also tell whether single tablet of IN-105 is safe for patients with Type 1 diabetes mellitus who are currently taking insulin injections.
Our objective is to demonstrate that providing supplemental vitamin D to children with new onset DM will significantly decrease the levels of HbA1c and insulin requirement by the following methods. 1. Identify how often vitamin D levels are low in patients with new onset Type 1 diabetes mellitus (DM). 2. Record the hemoglobin A1c (HbA1c) level (which reflects the average blood sugar level over the past few months) and document insulin requirements before and after vitamin supplementation is given. Hypothesis: Maintaining vitamin D levels >30 ng/ml will decrease HbA1c and insulin requirements.
Cardiovascular disease (CVD) remains the major cause of mortality and morbidity in both type 1 (T1D) and type 2 (T2D) diabetes patients; modifications of traditional CVD risk factors have had a limited impact. This project called Regadenoson Blood flow in Type 1 Diabetes (RABIT1D) and is proposed as a sub-study of the Coronary Artery Calcification in Type 1 Diabetes (CACTI) study, which has established a unique cohort of 656 T1D patients (age 20-55, minimal diabetes duration of 10 yrs) and 764 non-diabetic controls. This cohort is being followed for progression of coronary artery calcification (CAC) measured using the electron beam tomography (EBT) for development of clinical CVD. Participants have been well characterized during the baseline examination (4/00-3/02) and two follow-up re-examinations 3 and 6 years later. The study has provided important insights into the risk factors and possible prevention of premature CVD in T1D. We are proposing assess a subset of this population to determine vasodilatory reserve as it relates to early coronary atherosclerosis in T1D. Hypothesis: that myocardial blood imaging (MBF) reserve can be measured in Type 1 diabetes mellitus (DM) using regadenoson stress cardiac magnetic resonance and that significantly reduced MBF is a marker of extensive atherosclerotic disease correlated to coronary arterial calcification, plaque formation and impaired vasodilatory reserve.
The investigators intend to study children and adolescents from 8 to 18 years suffering from diabetes mellitus type 1 for more than one year. The patients will undergo a detailed clinical examination for anthropometric data, blood pressure, blood and urine. Motor and sensory nerve conduction velocity will be examined by electrical stimulation using surface patch electrodes. The nerves to be examined are the nervus tibialis anterior, nervus medianus and nervus peroneus. Primary outcome: How many children and adolescents suffering from diabetes mellitus type 1 (duration of disease > 1 year, age 8 to 18a, insulin requirement > 0.5 IU/kg/d) show pathological nerve conduction velocity? Secondary outcome: Is there a significant difference in nerve conduction velocity between the group of diabetic patients and the control group of healthy young people? Does the quality of disease control have an influence on nerve conduction velocity? Is there a correlation between nerve conduction velocity in our study patients and the Young Score? Is there a correlation between pathological nerve conduction velocity and other long-term vascular complications (nephropathy, retinopathy)?
INGAP Peptide acetate is the active ingredient of INGAP Peptide Solution for Injection. It is being developed as an antidiabetic agent for the restoration of endogenous insulin secretion in patients with type 1 diabetes mellitus (T1DM) and in insulin-deficient patients with type 2 diabetes mellitus (T2DM). This clinical study is designed to generate additional data regarding the appropriate dose and dosing regimen and to evaluate safety and efficacy in patients with T1DM.
The primary study objective was to compare the rate of "all hypoglycemia" (composite outcome of the following hypoglycemia events: symptomatic hypoglycemia episodes, low continuous glucose monitoring system (CGMS) excursions confirmed by fingerstick blood glucose (FSBG), low FSBG readings performed at other times) between children treated with Lantus (insulin glargine) and Neutral Protamine Hagedorn (NPH) insulin. Secondary objectives were to compare insulin glargine and NPH in terms of: - rates of specific types of hypoglycemia: symptomatic, severe, nocturnal, nocturnal symptomatic, and severe nocturnal symptomatic hypoglycemia - HbA1c change from baseline to end-of-treatment, and HbA1c at end-of-treatment - percentage of patients reaching HbA1c less than 7.5% (target value) at end of treatment - average blood glucose over whole trial and at end of trial, as estimated by continuous glucose monitoring (CGM), and blood glucose variability
Diabetes mellitus is a long-term multi-organ disease with severe implications that constitute a major health problem worldwide. Type 1 diabetes is an autoimmune disorder in which the body's own immune system attacks and destroys the cells that make insulin. Exogenous administration of insulin is the primary method of controlling type 1 diabetes by regulating blood glucose levels, but this treatment does not reverse nor prevent disease progression. Our hypothesis is that when implanting stimulated total bone marrow by arterial injection directly into the pancreas, we will achieve functional recovery of insulin-producing cells. This study will include patients with chronic type 1 diabetes and absence of lesions in target organs. We will follow the evolution of patients receiving autologous total bone marrow implantation by selective catheterization and compare to a non-treatment control group. All subjects will continue to use insulin therapy as needed to maintain the best possible glucose control. The objective is to achieve a significant increase in C-peptide levels indicating a regeneration of the beta islet cells with a decrease in exogenous insulin usage in at least 70% of the patients. This study is a follow-up to our initial study in which 22 patients received autologous total bone marrow. The initial study was 100% safe but additional studies like the one described above are needed to show efficacy.
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.