View clinical trials related to Hypoglycemia.
Filter by:At present, there are no therapeutic agents that can minimize severe hypoglycemia (low blood sugar) and its effects on long-term brain function. The aim of this study is to determine whether the human brain is able to use medium chain fatty acids (MCFA) and/or their metabolites as an alternative fuel source during acute hypoglycemia in patients with Type 1 Diabetes Mellitus (T1DM). The hypothesis is that medium chain fatty acids will provide a rapidly absorbed, non-carbohydrate fuel that will improve cognitive performance during episodes of hypoglycemia (low blood sugar.)
This study is intended to fill the knowledge gap regarding the burn population with research that achieves scientific merit. we will determine the effectiveness of the computer decision support system (CDSS) to facilitate glucose management in the critically ill burn patient. The EndoToolâ„¢ computer decision support system will achieve glycemic control (defined as 80-110 mg/dL) in a shorter time, reduce glycemic excursion outside of target range, and reduce incidence of hypoglycemia (blood glucose less than 50 mg/dL) in the critically ill burn patient compared to the standard of care USAISR insulin titration protocol (Appendix A).
This study is designed to investigate the effects of diabetes mellitus and its treatment upon the body's responses to low blood glucose (blood sugar) levels. Diabetes is a medical condition in which blood glucose can rise very high. Treatment of diabetes mellitus involves giving insulin (a hormone), which can occasionally cause blood glucose to fall too low. The body responds to low glucose levels by producing a number of hormones, which act against the insulin to help correct the low blood glucose. These hormones also provide symptoms which warn that the glucose is falling too far. These protective warnings by the body may be different in people with diabetes. We want to test whether this also means that diabetes changes the sensitivity of brain function to a lowering of blood glucose levels. In order to answer this question, we need to compare the response of people with diabetes with the response of people who do not have diabetes. The plan of the study is to lower the subject's blood glucose using insulin, while measuring what changes occur in brain function using what is called functional magnetic resonance imaging (fMRI).
The research study is designed to examine the impact of low blood sugar on brain function in individuals with Type 1 Diabetes who have frequent and severe hypoglycemia (low blood sugar) compared to those who do not.
The purpose of this study is to determine the way by which Alprazolam (Xanax) an anti-anxiety drug affects specialized molecules in your brain called GABA (A) receptors that alter your body's ability to defend itself from low blood sugar (hypoglycemia). We hypothesize that prior activation of GABA (A) receptors may result in blunting of counterregulatory responses during subsequent hypoglycemia and exercise.
Hypoglycemia is the most common complication of Type 1 diabetes particularly in those who strive for good glycemic control. In some patients there is a loss of awareness of hypoglycaemia so that the first manifestation of hypoglycaemia may be confusion or coma. Such a situation may carry risks that the patient may harm him or her self. Medtronic has recently developed a continuous glucose sensor that determines the glucose level every 3 minutes using a subcutaneous sensor and transmits the information to a remote device (Paradigm RT) that may be worn or left close by eg on a bedside table. The device may be programmed to alarm for a rapidly falling glucose or for low glucose levels. We propose to use this in 16 patients with severe hypoglycemia as evidenced by a high HYPO score and see if we can decrease the number of hypoglycemic reactions and document this improvement with a better HYPO score.
The purpose of this study is to determine whether patients with Hashimoto thyroiditis and impaired well-being may have a partial secondary adrenocortical insufficiency.
Late preterm infants are at an increased risk for short and long term morbidity (during the 1st year of life, their neurodevelopmental status may also be delayed as compared to infants born at term). The term "near term infants" is probably a deceiving one.
This study will help determine the frequency and magnitude of nocturnal hypoglycemia (low blood sugar at night during sleep), in children with type 1 diabetes who are on a standard insulin regimen, by using a Continuous Glucose Monitoring System (CGMS). Secondary objectives include the establishment of a definition of nocturnal hypoglycemia for the CGMS and for the calculation of sample size needed for future studies using CGMS. Nocturnal hypoglycemia (NH) can be associated with significant morbidity including seizure and coma. The investigators intend to use the CGMS in a future study investigating the use of a new insulin combination aimed to decrease the frequency of NH in the pediatric population. Thirty pediatric subjects with established type 1 diabetes mellitus will be asked to wear a CGMS for 3 days. During this time the participants will be required to test and record self-monitored blood glucose readings at designated time periods and if they have symptoms of hypoglycemia. The comparison of these values with each other and with different previously defined values of NH will allow for a clear definition of NH to be made. A survey has also been designed to assess participant satisfaction with the CGMS.
We aim to demonstrate that oral administration of glibenclamide stimulates pancreatic glucagon secretion during hypoglycemia in insulin-deficient (C-peptide negative) patients with type 1 diabetes when compared to type 1 diabetic patients with residual insulin secretion (C-peptide positive).