View clinical trials related to Type 1 Diabetes Mellitus.
Filter by:The objective of this study is to assess pharmacodynamics, pharmacokinetics, and safety of ASP1941 in patients with type 1 diabetes mellitus when administered once daily (q.d.) for 2 weeks.
This is a double-blind, randomised, controlled, two period crossover phase Ib trial using an individualized standard meal with a fixed nutrient ratio in subjects with type 1 diabetes mellitus to investigate postprandial blood glucose control with BioChaperone insulin lispro compared to Humalog®. The assessments will be conducted before and after a period of multiple daily dose administrations for 14 days. The meal tolerance test will be performed on day 1-3 and on day 14 of each period. Furthermore the study aims at investigating Post-prandial glucose (PPG) profiles with BioChaperone insulin lispro and Humalog® when injected at various injection meal intervals (-15min, 0 minutes, +15 minutes). Each subject will be randomised to a sequence of two treatments, either BioChaperone insulin lispro-Humalog® or Humalog®-Biochaperone insulin lispro, and three different sequences of injection-meal intervals. A blinded to patient continuous monitoring of glucose (CGM) will be performed during the 14 day treatment periods.
Primary Objective: -To assess the safety and tolerability of Afrezza in children ages 4 to 17 years with type 1 diabetes mellitus (T1DM). Secondary Objectives: - To assess the ability to titrate the prandial and supplemental doses of Afrezza at each meal. - To assess pharmacokinetics (PK) following a prandial dose of Afrezza in children ages 4 to 17 years with T1DM.
Islet transplantation is a relatively new procedure used in people with difficult to control Type 1 diabetes. Insulin producing cells (islets) are isolated from a pancreas donated by the next of kin of a person who is brain dead. After the cells are prepared, the islets are transplanted into the recipient's liver and produce insulin. Patients who receive an islet transplant take medication that suppresses their immune system and prevent rejection of the islet tissue. The investigators have also learned that there is general inflammation at the time of the transplant that is not fully controlled with our standard medications. The investigators believe this inflammation may cause some islet cell death around the time of transplant. Due to this islet death around the time of transplant, most recipients need 2 or 3 separate transplant procedures. The investigators are studying the use of Alpha-1 Antitrypsin (AAT) in islet transplant to decrease the amount of cell death caused by general inflammation. In this study, the investigators hope to decrease the need for more than one transplant procedure by controlling inflammation, before and after transplant, with Alpha-1 Antitrypsin (Aralast NP). Alpha-1 Antitrypsin is a protein made in healthy humans that helps to prevent tissue damage during times of inflammation. Alpha-1 Antitrypsin is obtained from healthy plasma donors. There have been studies in Islet Transplant in monkeys using this medication and it has shown to protect the islets from inflammation. This study involves using Alpha-1 Antitrypsin in addition to our current Standard of Care medications used in Islet Transplant.
This is a single center, prospective, randomized, double blinded placebo controlled study conducted I patients with type 1 diabetes.The aim of this study is to examine the additive effects of GLP-1 agonist and SGLT2 inhibitor in patients with type 1 diabetes in terms of possible improved glycemic control, reduced glycemic variability, reduced insulin dosages, additional effects of weight loss and blood pressure reduction.
The purpose of this study is to show that during and after drinking beer a treatment strategy by insulin bolus and reduction of basal rate reduces the rate of hyperglycaemia without an increase of hypoglycaemic events compared to a treatment strategy according to the standard recommendation without insulin Bolus.
This study will test the hypothesis that a BAC (blood alcohol content) of 0.1% will not significantly alter the anti-hypoglycemic effect of mico-dose glucagon in individuals with type 1 diabetes.
Each subject will be randomly allocated to a sequence of two treatments applied at two separate dosing visits. At each dosing visit subjects will be injected with individualised doses of either BioChaperone® Combo or Humalog® Mix 25 immediately before ingesting a standardised mixed meal [(t=0 min) start of the meal]. Insulin doses will be identical at both dosing visits of one individual and will be administered subcutaneously in the abdominal region. Subjects will be asked to consume a standardised meal (e.g. pizza) for dinner at home in the evening before each dosing visit. Subjects will attend the clinical site in a fasted state in the morning of each dosing day and stay at the clinical trial centre until 10-hour after dosing (standardised test-meal procedure has been terminated after 6h). The two dosing visits will be separated by a wash-out period of 5-15 days.
This study is designed to investigate the clinical efficacy and safety of pramlintide co-administered as a fixed-dose ratio with basal-bolus SC insulin, delivered simultaneously via 2 separate pumps, in subjects with type 1 diabetes who are failing to achieve the desired level of glycemic control using insulin therapy.
This work is testing a shared medical decision making intervention for adolescents with type 1 diabetes and their parents who are candidates for adding either an insulin pump or continuous glucose monitor to their treatment plan. The first half of the work consisted of the stakeholder driven design, construction and refinement of web-delivered multimedia decision aids for each of these decisions. The randomized controlled trial of that intervention began enroling participants in February 2015. A sample of 166 eligible adolescents who receive care at an operating entity of the Nemours Children's Health System will be enrolled and randomized to either Usual Clinical Practice alone or augmented by the Shared Medical Decision Making intervention. Primary outcomes include measures of engagement with the pertinent technology if it is chosen and measures of decision quality; Secondary outcomes include indices of metabolic control, quality of life and parent-adolescent relationships around diabetes management.