Active clinical trials for "Diabetes Mellitus, Type 1"

This study is conducted in Asia. The aim of this study is to evaluate long term safety and efficacy in patients with diabetes mellitus in routine clinical practice in India.

Home and school visits by multidisciplinary team will improve metabolic control in kids having insulin dependent diabetes mellitus

The "Lymphoscreen" study aims to characterize precisely (phenotypes/cytokines/functions) CD8+ T cell responses in type 1 Diabetes to identify biomarkers of the disease. Such markers are needed for refine type 1 Diabetes diagnosis/prognostic, and to design new therapeutic approaches targeting autoreactive CD8+ T cells. An original approach using DNA immunization of humanized mice allowed us to identify relevant CD8 epitopes derived from GAD65 and IA-2 beta cell autoantigens. The aims are: (i) identifying exhaustively epitopes recognized by autoreactive CD8+ T lymphocytes in type 1 Diabetes and following islet or pancreas graft in humans; (ii) identifying pathogenic CD8+ T cell patterns or profiles related to type 1 Diabetes pathogenesis and evolution; (iii) correlating CD8+ autoreactive T cell responses and autoantibody responses to new cellular (such as CD4+ T cells or peripheral cell miRNA) or humoral markers of the disease (such as serum miRNA).

The purpose of the study is to determine whether human islets labeled by iron contrast agents could be imaged using magnetic resonance after transplantation into the liver of Type 1 diabetic recipients.

The aim of this study is based on recent pilot studies carried out at Odense University Hospital showing that the acute changes in electroencephalographic (EEG) signals (i.e. electrical activity inthe brain) elicited by insulin-induced hypoglycemia in patients with type 1 diabetes can be reliable detected by real-time processing of these EEG signals using mathematical algorithms and state of the art noise and artifact reduction. These preliminary results also showed that the hypoglycemia-induced EEG changes are detectable 15-30 min before deterioration in cognitive function impedes an adequate response to warning. We hypothesize that these observations apply to the majority of patients with type 1 diabetes, and therefore, that it is possible to develop an automated device to detect hypoglycemic episodes by continuous real-time monitoring and processing of EEG signals. To test our hypothesis, the specific aims of the present proposal are: Detection of hypoglycemia-induced EEG changes using subcutaneous electrodes Ambulatory EEG monitoring using subcutaneous electrodes

The purpose of this pilot study is to evaluate performance of the SEVEN System and the Navigator System when both devices are worn concurrently by subjects with type 1 diabetes mellitus.

The purpose of this study is to see if a patient's ability (and/ or parent) to read, write, and do basic math problems affects blood sugar control in children with type 1 diabetes mellitus.

The purpose of this study is to evaluate the safety and effectiveness of the next-generation DexCom SEVEN Continuous Glucose Monitoring System (SEVEN.2 System) when worn for up to 7-days by subjects >18 years-old with diabetes mellitus requiring insulin therapy.

This observational study is conducted in North America. The aim of this observational study is to evaluate the incidence of adverse events while using Levemir® under normal clinical practice conditions.

The investigators hypothesize that PET scans will be able to differentiate between normal, reduced or increased BCM in human subjects. Subjects with normal BCM will be recruited from among normal weight nondiabetic people with plasma insulin levels within the normal range. Subjects with predicted reduced BCM will be recruited from among patients with T1DM who have with low or not measurable insulin levels. If results from the nondiabetic subjects and the subjects with T1DM are found to differ significantly, subjects with increased BCM will be recruited from among patients with hyperinsulinemia including those with obesity and the metabolic syndrome. PET scan measurements of the pancreas will be obtained and compared in people predicted, on the basis of biochemical testing, to have normal or reduced, or increased BCM.