View clinical trials related to Type 1 Diabetes Mellitus.
Filter by:Primary Objective: - To compare the glucose control during treatment with a new formulation of insulin glargine and Lantus in adult participants with type 1 diabetes mellitus Secondary Objectives: - To compare a new formulation of insulin glargine and Lantus given in the morning or in the evening - To compare the incidence and frequency of hypoglycemic episodes - To assess the safety and tolerability of the new formulation of insulin glargine
This overall research goal will be to develop a mobile-based module to improve glycemic control during the menstrual cycle in women with Type 1 diabetes mellitus (T1DM). This module will run on an Android Operating System (OS) and will be available as: (i) a stand-alone application and (ii) an important additional component to a larger system, the Diabetes Assistant (DiAs) - a mobile-based medical platform for diabetes applications. This proposal aims to build one such application or module targeting the improvement of diabetes control in younger women who experience glucose variation related to their menstrual cycle.
Feasibility study assessing the ability of an insulin pump-controlling algorithm to minimize hypoglycemia and hyperglycemia in patients with type 1 diabetes in a clinical research setting.
In this research study the investigators want more about how being in a group about diabetes helps your family versus individual treatment. The investigators are now asking youth with recently diagnosed (<1 year) diabetes and their parents to be in the research, because the investigators want to see if this diabetes group and/or individual therapy is helpful to your coping, adjustment, and family communication about diabetes.
Almost all patients with type 1 diabetes mellitus (T1DM) need insulin treatment permanently. For selected patients who are unable to achieve glycaemic targets with subcutaneous (SC) insulin treatment, continuous intraperitoneal (IP) insulin infusion is an third-line alternative. Previous studies demonstrate that continuous intraperitoneal insulin infusion (CIPII) using an implantable pump device improves glycaemic control and quality of life in patients with 'brittle' T1DM. Nevertheless, literature comparing IP and SC insulin treatment is scarce. The primary objective of this study is to compare the effects of IP insulin delivery to SC insulin delivery.The null hypothesis (H0) of the current study holds inferiority of CIPII compared to SC insulin regarding long-term glycaemic control. The alternative hypothesis (H1) is the inverse: CIPII is non-inferior to SC insulin. In summary, H0: CIPII is inferior to the SC insulin treatment H1: CIPII is not inferior to SC insulin treatment This is an investigator initiated, open label and prospective matched-control study with a non-inferiority design. The trial duration is 36 weeks and is conducted in a single-centre (Isala Clinics, Zwolle). If non-inferiority is established superiority analyses are performed.
The purpose of this study is to evaluate the safety and efficacy of islet transplants from human cadaver donors into type 1 or surgical diabetes mellitus patients who experience frequent acute or advanced chronic complications but do not qualify for other islet transplant trials. Under this protocol, patients may receive intraportal alloislet transplant under one of the following scenarios: 1. islet transplant alone 2. simultaneous islet-kidney transplant, or 3)islet after kidney transplant.
Type 1 Diabetes Mellitus is a disease that has an effect on bone mineral density. It is unclear how and when it effects the bone density. The investigators are studying the effects of diabetes on bone mass compared to children without diabetes.
The primary goal of the study is to investigate the safety and tolerability of the investigational drug lisofylline, when administered under the skin or in the vein, in people with type 1 diabetes. A second aim is to determine how much drug is available in the blood after injection under the skin, compared to injection in the vein.
Hormonal disturbances in the GH-IGF-I axis are considered important for the deterioration of glycemic control in T1DM particularly in adolescents. In addition it may have direct implications on the development of insulin resistance and long-term complications. The Investigators hypothesis is that low circulating IGF-I and compensatory hyper-secretion of GH, in the presence of peripheral insulin excess, results in increased local IGF-I expression explaining both the deterioration in metabolic control and the increased risk for microvascular complications. Correction of imbalance in circulating and tissue-specific levels of IGF-I could lead to both better early metabolic control and to prevention of early diabetic complications in type 1 diabetic (T1DM) patients. Aim of the present study is to validate the microdialysis technique as a useable tool to predict local biological effects of IGF-1 and to understand the pharmacokinetics of local IGF-I actions after sc injection of Increlex in type 1 diabetic patients.
The purpose of this study is to see if the Artificial Pancreas Platform (AP Platform = Cell Phone + Closed Loop Control) can successfully control blood sugar in people with type 1 diabetes mellitus on insulin pump therapy in a hospital setting. Investigators will also be studying to see if information about heart rate can help the AP Platform reduce hypoglycemia related to exercise.