Active clinical trials for "Hypoglycemia"

The purpose of this study is to determine the role of inflammation and the insulin regulating hormone GLP-1 during critical illness.

The goals of this proposal are to determine the effects of hypoglycemia on the autonomic nervous system.

Whereas physical activity clearly results in improvements in glycemic control in type 2 diabetes, in individuals with type 1 diabetes (T1DM) the impact of exercise on blood sugar control is more complex. In type 1 diabetes T1DM the inability to reduce exogenous insulin levels during exercise is a key factor that contributes to an increased risk of exercise-induced hypoglycemia. Since rapid adaptation of insulin dosage may be especially difficult in patients on a multiple daily injection regimen, alternative strategies are required to improve exercise-associated glucose stability. There is increasing evidence that the combination of steady state continuous low to moderate intensity exercise with short bursts of high intensity exertion (eg in the form of sprints) is an effective, well tolerated, novel strategy to prevent exercise-related hypoglycemia. A further promising option to stabilize blood sugar levels during and after exercise may be the ingestion of fructose in addition to glucose in form of a sport drink.

Iatrogenic hypoglycemia is the most frequent acute complication of insulin therapy in people with type 1 diabetes (T1DM). Recurrent hypoglycemic events initiate a process of habituation, characterized by suppression of hypoglycemic symptoms and lead to hypoglycemia unawareness, which in itself defines a particularly high risk of severe hypoglycemia. Recent evidence suggest a pivotal role for increased brain lactate transport capacity in the pathogenesis of hypoglycemia unawareness. However, there is uncertainty about the magnitude of this effect and whether such excess brain lactate is oxidizes as a glucose-sparing alternative energy source or acts as a metabolic regulator controlling brain glucose metabolism, oxygen consumption and cerebral blood flow. Objective: The primary objective of this study is to investigate the effect of hypoglycemia on brain lactate accumulation and regional cerebral blood perfusion in humans. The secondary objective is to assess whether this effect is a related to hypoglycemia unawareness or a consequence of T1DM per se. Hypothesis: The investigators hypothesize that hypoglycemia stimulates lactate transport over the blood-brain barrier leading to cerebral lactate accumulation and that this lactate accumulation is a function of prior hypoglycemic exposure frequency contributing to clinical hypoglycemia unawareness. Furthermore, the investigators expect that this effect of hypoglycemia on brain lactate accumulation is related to changes in cerebral blood flow (CBF).

Investigation of GIP effects at fasting and hypoglycemia

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.

This study will look at two FDA approved medications that improve how the pancreas works in patients with Type 2 Diabetes. In order to understand how these medications work in patients with diabetes we must first measure the normal response in healthy volunteers without diabetes. We will be looking at the body's normal physiological response to low blood sugar and whether this will be modified by these medicationsThe hypothesis would be that glimepiride induced insulin secretion will be inhibited by hypoglycemia.

Postprandial hyperinsulinaemic hypoglycaemia is an increasingly recognized adverse side effect of bariatric surgery. Affected individuals experience low glucose levels 1-3 hours after intake of meals, accompanied by symptoms such as drowsiness, sweating, hunger and palpitations. Hypoglycaemia can be serious and have potential dangerous health impact (e.g. road accident or fall due to loss of consciousness). The pathophysiology is incompletely understood and more research is needed in search of preventive and therapeutic strategies.

The primary objective of this study is to assess the effect of the natural course of postprandial hypoglycemia vs. a postprandial euglycaemic condition on driving performance in individuals with confirmed postprandial hyperinsulinaemic hypoglycaemia after gastric-bypass surgery.

Reducing hypoglycemia is an important aspect of management of type 1 diabetes (T1D) in older adults, many of whom have hypoglycemic unawareness, cognitive impairment, or both. Continuous Glucose Monitoring (CGM) offers the opportunity to reduce hypoglycemia and its related complications such as fractures from falls and hospitalizations and improve QOL including reducing hypoglycemic fear and diabetes distress. The potential benefit of CGM in reducing hypoglycemia in the older adult population has not been well studied. Prior and on-going trials compare CGM to self-monitoring of blood glucose levels, but none look at remote daily monitoring of CGM data or provision of telemedicine based on clinic notification of hypoglycemic events. This study is a 14 week, single center, pilot study of 10 subjects 65-75 yrs old with type 1 diabetes. The primary aim is to determine the effect of continuous remote CGM reporting coupled with a telemedicine intervention (Tele-CGM program) on rates of hypoglycemia in adults with T1D >65 years old. Study staff will review Tidepool uploads and call/email to the patient if one of the following occur has occurred in the past 24 hours: ≥4 hours without CGM signal, ≥2 hours 54 - 70 mg/dl and/or 15 minutes <54 mg/dl. Tele-monitoring call will include questions to find out why the event happened and then suggestions on how to trouble shoot to avoid issues in the future. As this is a feasibility study, statistical considerations were not used.