View clinical trials related to Type 1 Diabetes Mellitus.
Filter by:This Phase 2 study was intended to demonstrate superiority of sotagliflozin versus placebo on Hemoglobin A1C (A1C) reduction at Week 12 in young adult participants with type 1 diabetes mellitus (T1DM) who have poor glycemic control on their current insulin regimen.
This is an open-label, non-randomised pilot study, to evaluate user performance and system accuracy in blood Glucose monitoring system with glucose adjustment. Twelve male and female volunteers aged 18-45, with a documented diagnosis of Type I diabetes for at least 12 will be enrolled in this study.
The overall purpose of this trial is to assess the efficacy and safety of using oral verapamil in subjects with recent onset T1D in order to downregulate TXNIP and enhance the patients' endogenous beta cell mass and insulin production. The objectives are therefore to assess parameters of beta cell survival (including new biomarkers), insulin production and glucose control and the feasibility of this approach and thereby provide the basis for future, larger/expanded, longer-term verapamil studies and the off-label use of this approved drug for Type 1 Diabetes (T1D).
Islet transplantation is one of the effective and promising options for type 1 diabetes mellitus treatment1-4. The liver is the primary target location for infusion and portal vein catheterization is generally used. Percutaneous transjugular, percutaneous transhepatic, laparoscopically transmesenteric and laparoscopically transumbilical approaches were often utilized to access the portal. Current islet infusion approach via portal vein of liver has various defects. Percutaneous trans-hepatic puncture is risk of possible severe hemorrhage and portal thrombosis. The laparoscopic entry techniques require longer surgical duration and have an increased rate of catheterization failure. Moreover, the catheters were not allowed to indwell for subsequent infusions. In the current study, the investigators aim to performed open surgery, catheterized the umbilical vein and infused islets into the portal vein. The catheter was indwelled for one month after surgery. Therapeutic effects, surgical parameters and complications were observed to evaluate feasibility and safety.
Rationale. Degludec is a longer-acting insulin analog compared to glargine and detemir. In a fraction of type 1 diabetic patients, insulin glargine and insulin detemir may not achieve 24h coverage, reflected by raising pre-dinner glucose levels when they are administered at bedtime. As up-titration of bedtime long acting insulin increases risk of nocturnal hypoglycaemia, this clinical problem can be addressed by an additional injection of in the morning. These type 1 diabetic patients may benefit from shifting from twice daily insulin glargine/detemir to once daily insulin degludec, which shows an extended activity over 24h, up to 48h. Objective. To evaluate the effects of shifting from twice daily insulin glargine or detemir to once daily insulin degludec on HbA1c and glucose profiles in type 1 diabetic patients during a period of 3 months. Study design. Observational analytic prospective study. Protocol. Type 1 diabetic patients on twice daily insulin glargine or detemir (because of pre-dinner hyperglycemia due to supposed glargine/detemir coverage <24h) will be identified and enrolled. During a run-in period of 1 week, the investigators will collect data on HbA1c values as IFCC/DCCT-aligned and on glucose profiles using glucose meters. Patients will undergo a 7-14 day continuous glucose monitoring before and eventually during (additional 7-14 days) the shift from twice to once daily basal insulin. Patients will be re-assessed 12 weeks after initiation of insulin degludec with determination of HbA1c and 7-14 day continuous glucose monitoring.
Patients with type 1 diabetes mellitus (T1DM) are at high risk of developing kidney complications potentially leading to end stage renal disease. Uric acid (UA), the end product of purine metabolism, emerged as an important determinant of renal and vascular injury due to its ability activate the renin-angiotensin-aldosterone system (RAAS) and increase production of harmful reactive oxygen species (ROS). ROS cause progressive endothelial cell dysfunction, inflammation, tissue fibrosis and eventually cell death. These processes are enhanced in DM because of the effect of hyperglycemia. Since existing preventive drug therapies fail to completely prevent kidney damage, an examination of the effect of UA lowering against initiation and progression of renal and vascular complications is therefore of the utmost importance. The purpose of this study is to examine the effect of UA lowering with febuxostat on renal and systemic vascular function in patients with uncomplicated T1DM. It was hypothesized that UA lowering will improve kidney and systemic vascular function through effects on blood vessel function and anti-inflammatory effect. Kidney and blood vessel function will be assessed under conditions of normal and high blood sugar levels before and after 8 weeks of treatment with the UA lowering drug febuxostat in patients with diabetes and during normoglycemia only in health controls. Current treatment for renal and vascular complications in DM patients includes blockade of the RAAS. Unfortunately, angiotensin converting enzyme inhibitors (ACEi) and angiotensin II (AngII) receptor blockers (ARBs) lead to incomplete RAAS suppression, and do not completely prevent renal or vascular complications. Moreover, dual RAAS blockade increases renal and cardiovascular risk. Recent experimental work suggests that UA lowering therapies can block the RAAS, suppress inflammation and promote renal and systemic vascular protection. Therefore, our study is critical in determining the possible role of early UA lowering on renal and systemic hemodynamic dysfunction in young patients with T1DM.
Iatrogenic hypoglycemia is the most frequent acute complication of insulin therapy in people with type 1 diabetes (T1DM). Recurrent hypoglycemic events initiate a process of habituation, characterized by suppression of hypoglycemic symptoms, eventually leading to hypoglycemia unawareness, which creates a particularly high risk of severe hypoglycemia. Recent evidence suggest a pivotal role for (brain) lactate in the pathogenesis of hypoglycemia unawareness. Indeed, exogenous lactate administration may preserve brain function and attenuate counterregulatory responses to and symptomatic awareness of hypoglycemia. It is unknown whether endogenous elevation of plasma lactate produces the same effects and whether such effects differ between patients with T1DM with and without hypoglycemia unawareness and healthy controls. Objective: To investigate the effect of elevated levels of endogenous lactate on brain lactate accumulation and on counterregulatory responses to, symptomatic awareness of and cognitive function during hypoglycemia in patients with T1DM with and without hypoglycemia unawareness and normal controls. Hypothesis: The investigators hypothesize first that endogenous lactate, when raised through high intensity exercise, preserves neuronal metabolism during subsequent hypoglycemia, which in turn will attenuate counterregulatory hormone responses, appearance of symptoms and deterioration of cognitive function. Second, the investigators posit that these effects will be augmented in patients with hypoglycemia unawareness compared to healthy subjects and T1DM patients with normal awareness as a consequence of greater transport capacity of lactate into the brain.
The aim of the study is to evaluate the effect of insulin therapy in patients with newly diagnosed type 1 diabetes on quantitative and qualitative changes of plasma lipoproteins, with particular emphasis on HDL metabolism, and analysis of the factors determining the effect of insulin therapy on lipid profile.The study is planned to cover a minimum of 100 people with newly diagnosed type 1 diabetes and lead prospective observation of this group (for a minimum of 5-10 years). Patients will be assessed: during the first hospitalization in the moment of diagnosis (prior to introduction of insulin treatment), after 3 weeks, after 6 months and after 12 months of insulin therapy. Further observations planned in the annual intervals. In addition, the study group will be under constant monitoring of metabolic evaluation every three months in the Outpatient Clinic. During each follow-up will be assessed parameters evaluating the metabolism of plasma lipoprotein fractions and subfractions of HDL: 1. The concentration of apolipoprotein: including A-I, A-II, A-IV, C (II and III), D and E 2. Electrophoresis of plasma lipoproteins 3. Electrophoresis of HDL 4. The activity of enzymes: acyltransferase lecithin: cholesterol (LCAT) and plasma lipoprotein lipase Moreover, evaluation of factors which may potentially modify the relation between insulin therapy and lipoproteins will be assessed 1. Anthropometric data and markers of insulin resistance (such as BMI, waist-hip ratio, the estimated rate of glucose distribution, VAI index, body fat, blood pressure), 2. Metabolic management of diabetes,, 3. Protein glycation end products 4. The concentration of plasma adipokines. Expected impact of the research project on the development of science, civilization and society The obtained results allow to assess the impact of exogenous insulin on quantitative and qualitative changes and metabolism of lipoproteins in the serum of patients with type 1 diabetes. Understanding the etiopathogenesis of this phenomenon and the factors affecting it seem to be very important in the treatment of patients with type 1 diabetes, where insulin is the treatment of choice and dosage adjustment appears to be extremely important. Remains unknown whether the changes in the lipoprotein profile result from the beginning of insulin therapy or other factors influence it. Selecting a group of patients with less favorable lipoprotein profile may allow better metabolic control, and thus will affect the quality and length of life of our patients. These studies will assess the impact of our therapeutic actions on the diagnosis of the disease on long-term consequences, such as the development of chronic complications.
This is a randomized, controlled trial of Unified Safety System (USS) Virginia closed-loop versus sensor-augmented pump (SAP) therapy for hypoglycemia prevention in subjects with type 1 diabetes and hypoglycemia unawareness and/or risk for hypoglycemia.
Type 1 diabetes mellitus (T1DM) is an autoimmune disease. Based on previous research, study doctors think that giving medicines to affect the immune system soon after diabetes is diagnosed may stop, delay or decrease the destruction of beta cells, resulting in better glucose control. Researchers believe that tocilizumab could have some effect on the cells in the immune system that are thought to be involved in the development of type 1 diabetes. This study will test whether tocilizumab can help preserve or delay destruction of remaining beta cells in people recently diagnosed type 1 diabetes.