View clinical trials related to Hypoglycemia.
Filter by:In this study, participants with Type 1 diabetes received insulin through an infusion into a vein to reduce their blood glucose, and then received nasal glucagon (NG) or glucagon for injection under the skin, and their blood glucose was measured for 3 hours. The main objective of this study was to evaluate the safety and efficacy of intranasal and subcutaneous glucagon (SC) in reversing insulin-induced hypoglycemia in participants with type 1 diabetes.
This trial is conducted in Europe. The aim of this trial is to investigate if liraglutide adjunct to insulin treatment changes the glucagon response during hypoglycaemia in subjects with type 1 diabetes compared with conventional insulin treatment after 4 weeks' treatment with liraglutide or placebo. Subjects will initially be randomised to one of the three dose groups, and subsequently randomly allocated to one of two treatment sequences (liraglutide/placebo or placebo/liraglutide).
The purpose of this study is to evaluate the accuracy and reliability of the continuous glucose monitoring system the FreeStyle Navigator® (Abbott, Diabetes Care) in critically ill patients by comparing subcutaneous measuring with the current standard of arterial measuring by a point of care glucometer.
This is a non-interventional, cross sectional, multicentric study in T2DM patients which will involve a single visit for study related procedures. This study will be conducted in approximately 5,000 patients at around 300 hospitals/primary care clinics across India. Approximately 18-20 patients per site will be enrolled. This study has been designed to evaluate diabetes related quality of life (DQoL), frequency and impact of hypoglycaemia in relation to HbA1c control and to assess disease modifying variables-BMI and BP in T2DM patients on oral / injectable anti-diabetic drugs with/without insulin therapy.
The investigators have developed a unique Remote & Safety diabetes management system (MDRS) that offers real-time remote monitoring and control of glucose levels. The system allows the supervising personal to alarm the patient and intervene in cases such as pending hypoglycemia, long standing hyperglycemia or technical faults.The aim of this feasibility study is to evaluate the efficacy of the MDRS system in preventing nocturnal hypoglycemia in children and young adults with type 1 diabetes.
The investigators know that intensive insulin therapy and tight glucose control is associated with reduction of diabetic complications. However, many patients on insulin don't achieve this because of the risk and the fear of hypoglycaemia (too low blood glucose). There has been a lot of work done recently looking at the mechanisms by which the brain detects hypoglycaemia. A key player is a potassium channel in the brain (KATP channel). Studies have shown that when these channels are opened, there is a release of hormones such as adrenaline that can help in raising blood sugars to counteract and increase awareness of hypoglycaemia. The investigators study aims to look at an old drug called diazoxide, which is able to open KATP channels. The investigators aim to see if diazoxide will amplify the release of hormones such as adrenaline when the blood sugar is low. If this is the case, this will aid quicker recovery following hypoglycaemia. The investigators aim to do this by performing a well established experimental protocol that has been performed safely over the last 20 years called a clamp study. The clamp study will involve slowly bringing the blood sugars down using insulin and intravenous glucose in a controlled fashion. The main outcome will be the hormonal responses (adrenaline response) at a blood sugar level of 2.5mmol/L. Symptoms of hypoglycaemia will be monitored, as well as working memory tests using standardised questionnaires. The design of the investigators study will be a randomised trial comparing the effects of diazoxide with placebo in which all patients will receive both diazoxide and placebo in random order (crossover design).
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.