View clinical trials related to Hypoglycemia.
Filter by:This trial is conducted in Europe. The aim of this trial is to investigate the difference in frequency of episodes of hypoglycaemia during treatment with biphasic insulin aspart 30 compared to biphasic human insulin 30 in subjects with well controlled type 2 diabetes.
Enrollment for this study is complete. This study is designed to determine if use of a real-time continuous glucose monitor (RT-CGM) can reverse defective Glucose counter regulation and hypoglycemia unawareness in long standing type 1 diabetes.
Children with congenital hyperinsulinism (CHI) have low blood sugar, and some of these children may require surgery to remove part or all of their pancreas. In this study, researchers will test how well a radioactive drug, 18-labeled L-fluorodeoxyphenylalanine (called F-DOPA) can detect a form of hyperinsulinism (focal HI) that may be cured by surgery. Eligible participants in this study will have positron emission tomography/computerized tomography (PET/CT) scans with F-DOPA prior to surgery.
Insulin treatment often causes the blood glucose levels to fall too low. The body usually responds to low blood glucose levels by releasing hormones which act against the insulin to help correct the low blood glucose levels. However, this hormone response can be altered in people with diabetes. Currently there are no therapeutic agents that can be used to improve the recovery from hypoglycemia (low blood sugar). Naltrexone is a tablet used to help people who are addicted to alcohol or morphine-based drugs to remain drug and alcohol-free but it can also affect the levels of the hormones which are released during hypoglycemia. The aim of this study is to determine whether naltrexone can be used to improve and accelerate the recovery from hypoglycemia in patients with type 1 diabetes.
Investigation of GIP effects at fasting and hypoglycemia
tPA has a pivotal role in placentation, mediationg activation of growth factors, such as vascular endothelial growth factor and brain-derived neurotrophic factor, degradation of extracellular matrix and basement membrane (directly or through activation of matrix metalloproteinases) and formation of hemidesmosomes. A high-carbohydrate intake combined with lack of physical activity provides a strong stimulus for maternal insulin production. In this scenario, either β-cells are dysfunctional and diabetes supervenes, or excessive amounts of insulin are produced, providing pathological stimulation of PAI-1 synthesis. Given that PAI-1 is a major tPA inhibitor, PAI-1 excess may affect placentation, increasing the risk of first trimester losses, preterm deliveries and intrauterine growth restriction. Our hypothesis was that prematurity was not the cause of neonatal hypoglycemia, but a parallel occurrence of a strong stimulus for maternal, fetal and neonatal production of insulin.
The purpose of this study is to evaluate the performance of an insulin pump controlling algorithm while the subject is under close medical supervision in the Clinical Research Center (CRC) setting.
The purpose of this study is to look at whether blockade of the mineralocorticoid receptor will result in changes in the cardiovascular and inflammatory response to hypoglycemia.
In this protocol the investigators plan to demonstrate management of glucose using a modular insulin management system based on continuous glucose monitoring and targeted towards the avoidance of hypoglycemic and prolonged hyperglycemic episodes (i.e. control to range). The protocol is designed to challenge the insulin management system with meals and mild exercise, so as to demonstrate its capacity to avoid large glucose excursion with changing metabolic state. This system is designed to both - monitor the meal boluses of the patient and correct it in case of observed/predicted under insulinization (avoidance of prolonged hyperglycemia), based on a coarse and subjective knowledge of the meal amount, a precise understanding of the subject's day to day insulin treatment, continuous glucose monitoring, and past insulin injections; - predict and avoid hypoglycemic events, based on continuous glucose reading and past insulin injection. The investigators plan to enroll 12 adolescent T1DM patients (expected retention 10/12) and compare glucose control performances under two treatments: standard vs. the new insulin management system. The protocol will include a total of 5 admissions per subject (3 out-patients and 2 in-patients): screening, CGM insertion 1, CGM insertion 2, inpatient 1 and inpatient 2. During the 24h inpatient admissions the patients will be challenged with 30 minutes of mild exercise and 3 meals, insulin coverage of these events will vary depending on the chosen treatment, each subject will be exposed to both studied treatments (repeated measure design). The order of treatment during the inpatient admissions will be randomized.
Tight glucose control in intensive care has become a major concern, allowing a reduction in morbidity and mortality. However, its use is limited by the percentage of hypoglycemia which can have severe consequences on the brain. The bispectral index (BIS) is derived from the EEG and measures of brain electrical activity noninvasively. It has already been shown that its value changes according to hypoglycemia and its correction. Furthermore, if the hormonal response to hypoglycemia is well known in healthy and diabetic subjects, it is not the case in ICU patient. The usual treatment of hypoglycemia is based on parenteral infusion of glucose. Btu this can lead to a hyperglycemic rebound that can be deleterious. Lactate is a substrate for gluconeogenesis and an energy substrate during critical situations. It has been shown to improve neurological tests during hypoglycaemia and had cerebral protective properties after a severe head injury. The hypothesis of this study is that sodium lactate is superior than the 30% glucose to correct hypoglycemia in the ICU in terms of glycemic variation, brain function and hormonal response.