View clinical trials related to Hypoglycemia.
Filter by:Pilot of a novel video-based telemedicine intervention to reduce fear of hypoglycemia in parents of young children with type 1 diabetes.
The human ether-a-go-go-related gene HERG (encoding Kv11.1 potassium channels) is expressed in different parts of the body including the heart, pancreas and intestines. In the heart, Kv11.1 channels play a role in ending depolarization by causing repolarization. Loss-of-function mutations of HERG cause long QT syndrome, a condition of elongated QT interval that can lead to ventricular tachycardia, syncope and sudden death. Kv11.1 channels are also found in pancreatic α- and β-cells and intestinal L-cells, where they seem to play a role in the secretion of insulin, glucagon and Glucagon-Like Peptide-1 (GLP-1). Carriers of loss-of-function mutations in the HERG gene have showed increased insulin and incretin responses after glucose ingestion and decreased fasting levels of glucagon compared to matched control persons. Blockade of Kv11.1 has shown to augment glucose dependent insulin secretion and decrease low-glucose stimulated glucagon secretion in isolated α- and β- cells. The investigators of this study hypothesize that a blockade of Kv11.1 channels will increase incretin and β cell function and decrease α cell function and thus lead to lower glucose levels in humans after glucose intake. To investigate this, The investigators of this study will perform a randomized, cross sectional study of up to 40 healthy study participants who will serve as their own controls. The study participants will undergo two 6-hours oral glucose tolerance tests, one after intake of a known Kv11.1 blocker (moxifloxacin) and one control oral glucose tolerance test after intake of placebo. Prior to both tests the study participants will wear a continuous glucose monitor and on the day of the tests they will fill out a glucose questionnaire. Investigation of the physiological role of HERG in metabolism may provide a better insight on metabolic regulation.
The purpose of this study is to examine the effect of a moderately low blood sugar stress on the nervous system. The investigators hope that information obtained from completing this study will help to reveal information about how a non-psychological stress impacts the parts of the brain that react to stress and the autonomic nervous system. The autonomic nervous system is the part of the nervous system that provides the body with involuntary or automatic control of heart rate, blood pressure, and breathing.
This is a randomized crossover trial with 1:1 randomization to the admission sequence of using the Control AP system (rMPC - Naïve Model Predictive Control) vs. Experimental AP system (EnMPC - Ensemble Model Predictive Control) over approximately 4 months. Eligible participants will proceed to the Data Collection Phase for approximately 28 days, during which they will participate in regimented exercise activities. If the participant collected adequate data during the Data Collection Phase, they will be randomized and undergo the study admissions in the assigned sequence. Each admission is approximately 36 hours in length and will consist of one afternoon of exercise and one without.
Regular exercise is associated with many health benefits for individuals with type 1 diabetes. However, immediate and delayed exercise-induced hypoglycemia is frequent and thus the main limiting factor for physical activity practice in this population. To reduce the risk of exercise-induced hypoglycemia, two types of adjustments may be considered by patients with type 1 diabetes : pre-meal insulin-dose reduction and carbohydrate supplements. Few evidence-based recommendations are available for patients using insulin pump to adjust insulin doses in order to limit exercise-induced hypoglycemia. The objective of this study is to address the magnitude of the needed reduction during two types of frequently practiced exercise (continuous vs. interval exercise) known to have a different impact on blood glucose reduction.
This study is a randomized, placebo-controlled, double-blind, 2-treatment, 2-period, crossover comparison in a clinical research center (CRC) setting, followed by a randomized, placebo-controlled, double-blinded, 2-arm parallel comparison with a third open-label arm in an outpatient setting. The purpose of the study is to evaluate the preliminary efficacy and safety of Glucagon Ready-to-Use [RTU] to prevent exercise-induced hypoglycemia (EIH) in adults with Type 1 diabetes mellitus (T1D), who perform regular, moderate-to-high intensity aerobic exercise.
A hyperinsulinemic-hypoglycemic clamp is an experimental procedure, which allows for hypoglycemia to be studied in a safe and controlled manner. The goal of this study is to establish the hyperinsulinemic-hypoglycemic clamp procedure at Pennington Biomedical Research Center in order to apply the knowledge gained to future studies which will determine the efficacy of our biomarker for predicting susceptibility to hypoglycemia. Additionally, our use of continuous glucose monitoring (CGM) during the clamp procedure will provide novel data regarding the accuracy of CGM during hypoglycemic conditions in a controlled research setting.
The prevalence of Diabetes Mellitus (DM) is rising and more than 30 million of Americans or 9.4% of the US population has DM. Several large scale randomized clinical trials have found that improved glycemic control reduces the development of complications in patients with DM. However intensive glucose management carries an increased risk of hypoglycemia, a condition that may lead to neurological damage and is associated with increased incidence of cardiovascular events and mortality. Reducing uncontrolled hyperglycemia and hypoglycemia represents therefore an important objective, as may decrease the direct and indirect impact that diabetes has in our health care system. Achieving optimal glycemic control requires frequent blood glucose monitoring by the patients and recurrent clinic visits,which is often difficult to achieve, as access to typical DM clinic is at least sub optimal. m-Health and telemedicine health solutions represent alternative ways to manage patients in the outpatient setting and have been applied in different medical areas, among them in diabetes. However, almost all the telemedicine studies that have been previously performed and recruited DM patients used telemedicine solutions which were based on point of care (POC) finger-stick glucose testing, which are checked infrequently , usually 4-6 times/day. Continuous glucose monitoring (CGM) devices offer additional ways to monitor blood glucose values and can provide numerous glucose measurements (as frequent as every 5 min). By using software applications, such as the Clarity (Dexcom), which highlights glucose patterns, trends and statistics in standardized reports, providers can make safe recommendations of adjusting DM medications, especially insulin titration. In this randomized clinical trial investigators propose to use CGM devices and Clarity software as a telemedicine platform in order to improve glycemic control and improve health outcomes.
This is a prospective randomized study to evaluate the efficacy of nutritional intervention for the prevention of hypoglycemia among diabetes patients with low albumin level that are admitted to internal medicine units, regardless of the reason for admission. All patients suitable for participation in the study will be asked to participate and be randomized to the interventional arm or the control arm. After admission to the internal medicine unit, eligible patients will be asked to participate in the study. After signing an informed consent form, patients will be randomized to the treatment or control arms. For patients allocated to the treatment arm, the physician in charge will prescribe 2 portions of GlucernaTM per day as part of the treatment protocol. The nurse in charge of the patient (at either the morning or evening shifts) will make sure the patient is receiving and consuming the ONS. For every patient included in the interventional arm, 2 bottles of GlucernaTM will be supplied to the patient, one at 08:00 with the morning medications, and one at 16:00 with the evening medications. For clarification purposes, the GlucernaTM will be supplied on top of the designated meal plan, as "over-feeding". Evaluation of adequate ONS consumption will be performed 2-3 hours after the dispensing of the ONS (at 10:00-11:00 and 19:00-21:00), and the amount consumed will be documented. Patients in the control arm will receive no oral nutritional supplementation, and their caloric intake will be composed of the food supplied by the hospital. Other analysis will be considered usual care. Additional diet consultations as requested by the medical staff will constitute usual care, and the patient will continue the study. The duration of ONS treatment will be the entire length of hospital stay. Upon discharge, a recommendation to continue nutritional care will be added to the patients' discharge letters but no oral nutritional supplement (ONS) will be prescribed or dispensed. Following discharge, a 30-day follow-up call will be made to ascertain whether the patient is alive, whether the patient was re-admitted or re-hospitalized, and the usage of ONS prescribed by the family/general practitioner that was consumed after the hospital discharge.
This is a double-blind, placebo-controlled Phase 2 study to assess the efficacy, safety and tolerability of Glucagon RTU when administered to subjects with a history of bariatric surgery during episodes of post-postprandial hypoglycemia. Twelve eligible subjects will be randomly assigned to receive Glucagon RTU or placebo at the first of two clinical research center (CRC) visits, followed by the other treatment at the second CRC visit. Subjects will be randomly assigned to either Glucagon RTU or Placebo for the duration of a 12-week Outpatient Stage. A follow-up safety assessment visit will occur 14 to 28 days after a subject's last dose of study drug.