View clinical trials related to Type 1 Diabetes.
Filter by:International Diabetes Center (IDC) proposes a preference and usability study of glucose data acquisition and reporting, evaluating streamlined standardized cloud-based glucose reporting including work flow as well as patient and clinician preference at Type 1 Diabetes (T1D) Exchange sites to enhance standard Ambulatory Glucose Profile (AGP) reporting. This phase 2 project assesses the efficacy of standardized glucose data report generation and preferred report presentation format; both are necessary to increase use of continuous glucose monitoring (CGM) data to improve care processes and outcomes for Type 1 diabetes.
The purpose of this study is to demonstrate point accuracy of the Abbott Sensor Based Glucose Monitoring (GM) System interstitial glucose results against Reader capillary Blood Glucose (BG) reference using the Consensus Error Grid. During the course of the wear duration, the subject is required to test fingerstick glucose measurement at least eight (8) times a day for capillary reference glucose measurements and three in-clinic visits of a maximum 13 hours each for venous reference glucose measurements. With every reference measurement, the subject or study staff will perform a measurement on the System.
The purpose of this study is to test the ability of an advanced external Physiologic Insulin Delivery (ePID) algorithm (a step by step process used to develop a solution to a problem) to get acceptable meal responses over a range of gain. Gain is defined as how much insulin is given in response to a change in a patient's glucose level. This study also examines the effectiveness of the external Physiologic Insulin Delivery (ePID) closed-loop insulin delivery computer software. The investigators would like to assess whether fasting target levels can be achieved as the closed-loop gain increases or decreases, and to evaluate the system's ability to produce an acceptable breakfast meal response.
The purpose of the study is to assess a new closed-loop algorithm in type 1 diabetes (Saddle Point Model Predictive Control : SP-MPC)
This study aims to assess the safety and efficacy of a novel advanced bolus calculator in subjects with Type 1 diabetes. Insulin bolus calculators have been developed to aid insulin dose adjustment and existing standard insulin bolus calculator consist of a simple algorithm that requires five subject-specific parameters as input to generate a recommended bolus insulin dose: - current blood glucose (mmol/L) - target blood glucose (mmol/L) - insulin-to-carbohydrate ratio (grams of carbohydrate per 1 unit of insulin) - total grams of carbohydrate in meals - insulin sensitivity factor (reduction in glucose per 1 unit of insulin)
Most of the studies concerning aerobic fitness in Type 1 diabetic patients noted a relationship between impaired aerobic fitness and high glycated haemoglobin (HbA1c) levels, reflecting poor long term glycaemic control. To explain this relationship, the indirect effect of chronically high blood glucose levels on cardiovascular complications - and hence on exercise cardiovascular adaptations - are often mentioned. However, one could wonder if HbA1c could also have a direct impact on aerobic fitness patients with Type 1 diabetes. Haemoglobin glycation may increase its O2 affinity, thus limiting the O2 availability at the muscular level and impairing maximal aerobic power. Moreover, chronic hyperglycaemia might have deleterious effect on muscle mitochondrial capacity to use O2. The aim of this study is to assess the effect of Type 1 diabetes and of HbA1c level on muscular oxygen delivery and use and hence on aerobic fitness.
Manually suspending an insulin pump at the beginning of aerobic exercise reduces the risk of exercise-associated hypoglycemia (low blood sugar) in patients with type 1 diabetes (T1D). However, since patients with T1D often do not make exercise-related adjustments to their insulin regimen, our group has developed an algorithm to initiate pump suspension in a user-independent manner upon projecting exercise-associated hypoglycemia. The current study seeks to test the efficacy of this algorithm by asking users to participate in a sports camp while wearing an insulin pump, continuous glucose monitor, and accelerometer/heart rate monitor (to detect exercise), which will communicate electronically to a pump shutoff algorithm. On one of the days the algorithm will be used, while on the other day their normal insulin rate will continue for comparative purposes. The investigators hypothesize that the use of an accelerometer-augmented computer algorithm for insulin pump suspension during exercise will result in significantly fewer episodes of hypoglycemia (both during exercise and in post-exercise monitoring) than in exercise without a pump suspension algorithm.
Insulin Clamp Ancillary study for Assessment of Insulin Resistance will be conducted as a sub-study to the main protocol, Metformin Therapy for Overweight Adolescents With Type 1 Diabetes (NCT01881828). The purpose of this ancillary study is to assess if metformin will improve tissue-specific insulin resistance (IR) in type 1 diabetes using a hyperinsulinemic euglycemic clamp; a 3-month randomized trial comparing metformin versus placebo in 12 to <20 year olds with BMI >85th percentile ( total daily insulin dose >0.7 units/kg, and HbA1c 7.0%-9.9%).
The overall aim of the study is to evaluate the performance of Artificial Pancreas or Closed Loop Glucose-Sensing Insulin-Delivery system in comparison to current best available technology represented by Sensor Augmented Pump Therapy (SAPT) in patients with Type 1 Diabetes.
Nerves are made of different fats including omega-3s and omega-6s; however, dietary intakes of omega-6s are very high and omega-3 intakes are very low. We hypothesize that omega-3 supplementation will stop diabetes related changes in cornea nerve structure in patients with type 1 diabetes to stop the development of nerve injury associated with future risk of neuropathy, and reflect changes in the degree of nerve injury over time. As such, we anticipate that patients in the study will maintain Corneal Nerve Fiber Length (CNFL), the primary outcome measure.