View clinical trials related to Type 1 Diabetes Mellitus.
Filter by:To obtain safety and tolerability information in patients with type 1 diabetes where Dapagliflozin is added on to Insulin (for 14 days)
Patients with type 1 diabetes are at increased risk of vascular complications both in the micro- and macrocirculation. Hyperglycemia plays a major role in the development of these vascular complications, but other factors such increased platelet adhesion and aggregation, elevated levels of plasma fibrinogen, altered fibrin network structure, increased thrombin generation, dyslipidemia and endothelial dysfunction may contribute. Lipid-lowering therapy with statins is effective in prevention of cardiovascular events in individuals at increased risk. Statins seem to exert beneficial effects on hemostasis and vasculature that are independent of their lipid-lowering properties. The aim of the present study was to investigated the effects of intensive LDL-cholesterol-lowering therapy with atorvastatin on fibrin network permeability (primary variable) and other aspects of hemostasis in patients with type 1 diabetes and dyslipidemia. Furthermore, the effects of atorvastatin therapy on skin microvascular function was also investigated.
Primary Objective: To compare the pharmacodynamic properties of two different doses of a new insulin glargine formulation with 0.4 U/kg Lantus® Secondary Objective: To compare the pharmacokinetic properties of two different doses of a new insulin glargine formulation with 0.4 U/kg Lantus® To assess the safety and tolerability of a new insulin glargine formulation
The purpose of this research study is to test how different levels of insulin block the effect of glucagon. Insulin is a hormone that lowers blood glucose. Glucagon raises blood glucose. Both are natural hormones made by people without diabetes. Sensor-based blood glucose control studies have been done by our research group using glucagon in small doses to prevent hypoglycemia (low blood sugar). However, sometimes glucagon does not work to raise blood sugar. The investigators believe this is because of too much insulin in the body. This study will help determine how different levels of insulin in the body affect the ability of glucagon to raise blood sugar.
This clinical trial is a feasibility study to assess the performance of an Artificial Pancreas (AP) device using the Artificial Pancreas System (APS©) platform for subjects with type 1 diabetes. The device is a closed-loop between a DexComâ„¢ SEVEN® PLUS (DexComâ„¢ Corp, San Diego, CA) continuous glucose monitor (CGM) and a OneTouch® Ping® Glucose Monitoring System (Animas Corp, Westchester, PA) subcutaneous insulin delivery pump (CSII). The AP device is controlled by a zone-Model Predictive Control (zone-MPC) algorithm augmented by a safety algorithm named the Health Monitoring System (HMS). The clinical study will include 12 to 20 adults subjects aged 21 to 65 years old.
A single arm, single treatment study is proposed to assess the feasibility of a portable artificial pancreas system outside of a hospital based clinical research center. Adult T1DM patients will use a newly developed platform in conjunction with a subcutaneous insulin infusion pump and a continuous glucose monitor for 18 hours is quasi free conditions (hotel).
The purpose of this study is to assess the accuracy of the Becton Dickenson (BD) Technologies Glucose Binding Protein-Based Continuous Glucose Monitor (GBP CGM) in patients with Type 1 diabetes during low (goal glucose 55 mg/dL), normal (80-140 mg/dL) and high (>180mg/dL) glucose levels over a 24 hour period. This will be achieved by monitoring blood sugar levels when a regular dinner meal is given, when a liquid breakfast meal (BOOST Original containing 41 grams Carbohydrates (CHO), 4 grams fat, 10 grams protein) is given, when subcutaneous insulin is dosed to induce hypoglycemia to a goal of 55 mg/dL, and when a regular lunch meal is given. A Continuous Glucose Monitor (CGM) is an electronic device that measures and displays blood sugar (glucose) levels in the body throughout the day and night. The method being used to detect blood sugar in the investigational Glucose Binding Protein-Based Continuous Glucose Monitor (GBP CGM) is different than the method that is currently in use by commercially available models. Some sensors cannot tell the difference between glucose (sugar) and other substances such as Tylenol, aspirin or citric acid etc. Because they cannot tell the difference, they may give false readings. The GBP CGM is made to only recognize glucose in the body rather than other substances (e.g., Tylenol, aspirin, citric acid, etc.). As a result, the investigators expect the new GBP CGM to be more accurate at detecting low blood sugar levels than the current devices.
The purpose of this study is to demonstrate the performance of the Enlite Sensor over an entire calibration and wear period of 146 hours (6 days) when inserted in the abdomen and buttock and used with the Revel 2.0 Pumps in subjects age 18 - 75 years.
The purpose of the study is to investigate whether the combination of insulin pump therapy and continued glucose monitoring (CGM) is superior to multiple daily insulin injections to prevent progression of albuminuria in patients with type 1 diabetes
A single arm, single treatment study is proposed to assess the feasibility of a portable artificial pancreas system outside of a hospital based clinical research center. Adult T1DM patients will use a newly developed platform in conjunction with a subcutaneous insulin infusion pump and a continuous glucose monitor for 18 hours is quasi free conditions (hotel).