Intra-nasal Naloxone for Treatment of Impaired Awareness of Hypoglycemia
Hypoglycemia UnawarenessType 1 DiabetesThis is a single center, single-blind randomized cross over design trial that will compare the impact of intra-nasal naloxone vs. intra-nasal saline administration during experimental hypoglycemia on day one on responses to experimental hypoglycemia on day two. Investigators intend to enroll 18 individuals to obtain the complete data sets from 15 participants. Expected duration of subject participation is 10-12 weeks. This study will consist of two 2-day intervention visits separated by approximately 8 weeks.
Treatment of Hypoglycemia in Type 1 Diabetes
Type 1 DiabetesAccording to guidelines, when a mild-to-moderate hypoglycemia occurs (capillary blood glucose < 4.0 mmol/L), 15-20g of rapidly absorbed carbohydrates should be ingested. Patients should re-test and re-ingest 15-20g carbohydrates every 15 minutes until they recover from hypoglycemia. These recommendations were principally based on two studies conducted in the 80s before the introduction of intensive insulin therapy secondary to the DCCT trial and with insulin formulations with largely different pharmacokinetic profiles from current insulin analogs. Recent studies suggest that with current insulin analogs and intensive therapeutic approach, 15g of carbohydrates may be insufficient to rapidly correct an important proportion of hypoglycemic episodes. It is thus important to determine if the recommended hypoglycemia treatment remains the recommendation.
A Pilot Study of Nocturnal Hypoglycemia Prevention in Type 1 Diabetes Using the Vigilant Diabetes...
HypoglycemiaDiabetes Mellitus1 moreA single center pilot study assessing the Vigilant Diabetes Management Companion for the prevention of recurrent nocturnal hypoglycemia in type I diabetes patients.
Naloxone, Hypoglycemia and Exercise
Diabetes MellitusType 1The overall objective of this project is to determine if the intranasal administration of naloxone during exercise will be a novel approach to preserve the counterregulatory response to hypoglycemia experienced the next day in patients with type 1 diabetes. Exercise induced autonomic failure contributes to the development of impaired awareness of hypoglycemia. Treatments that blunt the consequences of exercise induced autonomic failure, such as preserving the post-exercise counterregulatory response to hypoglycemia, may improve awareness of hypoglycemia. Naloxone, an opioid antagonist, is an extremely promising agent. In healthy volunteers, intravenous administration of naloxone during exercise preserved the counterregulatory response to hypoglycemia the following day (1). In this study, investigators will extend the clinical applicability by administering intranasal naloxone to individuals with type 1 diabetes. Specifically, the investigators will use a randomized, placebo controlled, crossover design to administer drug or placebo to patients with type 1 diabetes during acute exercise and assess the counterregulatory response to hypoglycemia the following day. The use of intranasal naloxone is a highly innovative aspect of this proposal. Intranasal naloxone translates readily to clinical use and, as demonstrated by the investigators preliminary data, achieves similar plasma drug concentrations as after IV administration.
Trial to Confirm the Clinical Efficacy and Safety of Dasiglucagon in the Treatment of Hypoglycemia...
HypoglycemiaDiabetes Mellitus1 moreA randomized, double-blind, parallel-group trial to confirm the clinical efficacy and safety of dasiglucagon in the rescue treatment of hypoglycemia in subjects with type 1 diabetes mellitus (T1DM) compared to placebo
A Trial to Confirm the Efficacy and Safety of Dasiglucagon in the Treatment of Hypoglycemia in Type...
HypoglycemiaDiabetes Mellitus1 moreThe objective of the trial is to demonstrate superiority of dasiglucagon compared to placebo following a single subcutaneous dose administered to subjects with type 1 diabetes mellitus (T1DM) with insulin-induced hypoglycemia. Additionally to compare the glycemic response observed after administration dasiglucagon with that of GlucaGen®.
Development of Agents to Diminish the Risk of Hypoglycemia-induced Brain Injury in Type 1 Diabetes...
Hyperglycaemia (Diabetic)To determine the effect of re-activation of brain glucose metabolism induced by dichloroacetate (DCA) on cognitive function and counterregulatory hormone responses in patients with type 1 diabetes (T1DM) with recurrent hypoglycemia.
Interest of SmartGuard Technology (Predictive System for Stopping Insulin Before Hypoglycemia) in...
Diabetes MellitusType 1Management of children and adolescents with type 1 diabetes is essentially insulin therapy using insulin pump, allowing the improvement of the glycemic balance. However, the risk of hypoglycaemia inherent to the treatment persists. Hypoglycemia is an acute complication in the management of diabetes. It can be manifested by warning signs (tremors, sweats, feelings of hunger ...) but also occur during sleep and be ignored. It can be responsible for asthenia, difficulty concentrating and attention and memory problems. In order to decrease time spent in hypoglycemia, insulin pump therapy can be coupled with a continuous glucose measurement system with a stop insulin pump function in case of hypoglycemia. The aim of the study is to evaluate efficacy of the predictive system for stopping before hypoglycaemia "medtronic Minimed with SmartGuard technology" in type 1 diabetic children, especially on the time spent in hypoglycemia .
A Trial to Compare the Efficacy and Safety of 2 Different Batches of Subcutaneous Dasiglucagon in...
HypoglycemiaDiabetes Mellitus1 moreA randomized, double-blind, crossover trial to compare the efficacy and safety of 2 different batches of subcutaneous dasiglucagon in patients with type 1 diabetes mellitus (T1DM)
Technological Advances in Glucose Management in Older Adults
Type 1 Diabetes MellitusOlder Adults1 moreThis is a study to assess the effectiveness of CGM (Continuous Glucose Monitor), enhanced by a diabetes management platform (DMP), collectively called enhanced CGM (eCGM), in the care of older patients with T1D. The DMP includes an automated data transfer from CGM, insulin-delivery devices, and activity tracker to a clinical decision support system (CDS) that provides dosing adjustment recommendations based on that data to the healthcare team. In addition, the DMP includes on-demand education for patients and caregivers, and an interface for communication between providers, patients, and their caregivers.