View clinical trials related to Type 1 Diabetes Mellitus.
Filter by:The reason for this study is to compare the study drug LY900014 to insulin lispro (Humalog) in children and adolescents with type 1 diabetes (T1D).
This is a multi-center, randomized, controlled, single-blind, two-way crossover efficacy and safety study in subjects with Type 1 diabetes mellitus. The study involves two daytime clinical research center (CRC) visits with random assignment to receive G-Pen glucagon 1 mg during one period and Novo Glucagon 1 mg during the other. Each daytime visit is preceded by an overnight stay in the CRC. In the morning of the inpatient study visit, the subject is brought into a state of severe hypoglycemia through IV administration of regular insulin diluted in normal saline. After a hypoglycemic state with plasma glucose < 54 mg/dL (3 mmol/L) is verified, the subject is administered a dose of G-Pen or Novo Glucagon via subcutaneous injection. Plasma glucose levels are monitored for up to 180 minutes post-dosing, with a value of >70.0 mg/dL (3.89 mmol/L) or an increase of > 20 mg/dL (>1.11 mmol/L) within 30 minutes of glucagon administration indicating a positive response. After 3 hours, the subject is given a meal and discharged when medically stable. After a wash-out period of 7 to 28 days, subjects return to the CRC, and the procedures are repeated with each subject crossed over to the other treatment. A follow-up visit as a safety check is conducted 2-7 days following administration of the final dose of study drug.
This is a single-center randomized crossover trial. The investigators will target completion of 15 adults (age 18-65 years) with Type 1 Diabetes who use an insulin pump. After completion of the Screening Visit, each subject will participate in a 28-day at home Data Collection Period while using their personal insulin pump, a personal glucometer, a study CGM, and a study activity tracker (i.e., Fitbit). This data collection period may be extended to obtain to gather more days of quality data, if needed per principal investigator judgement. Once the data has been collected and processed, subjects will participate in two 24-hour admissions (Experimental and Control Admission) in a semi-controlled environment (i.e., hotel), performed in the assigned random order. During both admissions, subjects will use the personal insulin pump and glucometer, and a study CGM. The exercise session will consist of three 15-minute bouts of moderate-intensity exercise (i.e., stationary bicycle). Subjects will be provided a controlled dinner; the SI-informed bolus calculator will be used in the Experimental Admission while standard therapy will be used in the Control Admission. Subjects will then be observed overnight and discharged in the following morning.
The purpose of this study is to evaluate a new intervention (CARES: Cognitive Adaptations to Reduce Emotional Stress Associated with Type 1 Diabetes) designed to reduce caregiver depressive symptoms in families of children with T1D. This is a pilot in which all enrolled parents/caregivers will be placed in the intervention group to assess initial pre- to post-treatment impact of the intervention on parent/caregiver depression, distress, and diabetes-related outcomes (e.g., glycemic control).
This study aims to implement a group education curriculum integrated with social media participation to provide peer support and interactive education sessions with the goal of improving glycemic control in disadvantaged youth with poorly-controlled type 1 diabetes.
This study is to assess an approach of self-management called CloudConnect, evaluating the impact of CloudConnect Reports on patient engagement, adolescent/parent discussion, and clinical outcomes in adolescent Type 1 Diabetes (T1D).
The objective of this pilot study is (i) to test the use of an Artificial Pancreas (AP) System as a viable therapy treatment for two vulnerable populations: 6 to 10 year-old and adults older ≥65 years old with T1D; (ii) to assess cognitive function in children and older adult patients with T1D and examine whether improved glycemic control defined by stable (more than 70% of the day in glycemic range 70-180 mg/dL) control positively influences cognitive function; and (iii) obtain preliminary data to apply to funds to continue with larger and longer clinical trials.
This study will use ultrasound to characterise lipohypertrophy(LH) and assess the impact of LH on glucose variability in adults with type 1 diabetes. LH is a condition that occurs with repeated exposure to insulin at injection sites, resulting in the development of subcutaneous fatty lumps that impede the absorption of insulin. LH can lead to glucose variability, increased risk of severe hypoglycaemia and diabetes distress. In the long term it can therefore lead to increased risk of diabetes complications and increased insulin costs.
The goal of this study is to determine if Hylenex recombinant leads to changes in the insulin time-action profiles and glucose responses when preadministered in the setting of continuous subcutaneous insulin infusion (CSII) compared to CSII without Hylenex recombinant (sham injection).
Hypoglycemia is the main barrier for physical activity practice of patients with type 1 diabetes (T1D). For postprandial exercise, anticipation with meal insulin bolus reduction is the recommended method to reduce exercise-associated hypoglycemic risk. The impact of faster acting Aspart (FiAsp) pharmacokinetic on hypoglycemic risk has not yet been explored. This study will explore two different timings for exercise onset. Objective: To compare the impact of rapid-acting insulin Aspart and faster acting Aspart (FiAsp) on glucose reduction during exercise. Design: This study is a randomized, four-way, crossover study to compare the efficacy of 1) rapid-acting insulin Aspart, and 2) FiAsp on glucose reduction during an exercise performed 60 minutes or 120 minutes after breakfast. The insulin used and the timing of the exercise will be randomized. This project will be conducted at Institut de recherches cliniques de Montréal (IRCM, Montreal, Canada). Hypothesis: Faster acting Aspart (FiAsp) will be non-inferior to insulin Aspart for hypoglycemic risk.