View clinical trials related to Hypoglycemia.
Filter by:Eating Disorders (ED) are a major public health problem. Current care remains only partially effective and the pathophysiology of the disorders remains to be deepened. With regard to compulsive ED (bulimia and binge eating disorder), our clinical experience suggests that one of the major triggers for crisis may be related to glycemia. In fact, bulimia could be considered as a vicious circle where the binge eating disorder is going to be followed by a food restriction in order to control weight , putting the subject in a situation of "energy deficiency" which will favor the emergence of new crises . Technological advances have resulted in the emergence of new measuring devices, such as "tracking", which records continuous glycemia, which would allow us to explore these clinical hypotheses.
Hypoglycemic complications are a major impediment to the maintenance of healthy glucose levels in persons with diabetes. The investigators recently completed a clinical pilot and feasibility study (GLIMPSE, NCT02690168), which identified a novel biomarker, glial acetate metabolism, that appears to predict the susceptibility to hypoglycemia. By providing an assay to predict hypoglycemic events and therefore diabetic complications, the development of this biomarker could significantly improve the treatment of persons with diabetes. The goal of this study is to determine the efficacy of our biomarker for predicting susceptibility to insulin-induced hypoglycemia. In order to accomplish this goal the investigatiors will pair our 13C magnetic resonance spectroscopy procedure to assess glial acetate metabolism, developed in the GLIMPSE study, with a hyperinsulinemic-hypoglycemic clamp procedure, developed in the HYPOCLAMP study (NCT03839511). The two procedures will be separated by a three day interval. The investigators will then correlate the participants' rates of glial acetate metabolism with their neuroendocrine responses to the hypoglycemic clamp. This proof of concept study will test the hypothesis that glial acetate metabolism is inversely proportional to the neuroendocrine response to hypoglycemia, that is, as glial acetate metabolism increases the neuroendocrine response will decrease.
We wish to study the effect of a mothers sugar (glucose) control during pregnancy on her baby's sugar control after birth.
Prior to caesarean section, patients should fast from solid food for 6 hours and from clear fluids for 2 hours. Carbohydrate drinks can also be consumed up to 2 hours before surgery. These drinks have been shown to improve patient well-being after surgery and may potentially improve the neonatal blood glucose level after delivery and reduce the risk of a low blood glucose level. This study aims to assess the influence of pre-operative carbohydrate drinks on blood glucose levels of the baby at delivery.
This will be a single centre study at the Prince of Wales Hospital, Hong Kong. Patients will be identified from an existing registry of diabetes patients with CKD. Potential subjects will be identified from patients attending diabetes, general medical and renal clinics. Following informed consent, patients will undergo screening where baseline HbA1c, renal function will be measured along withcomprehensive medical and drug history to confirm eligibility. All eligible patients will be fitted with a blinded CGM (Medtronic iPro2 professional CGM) on week-1 for baseline glucose profiles for capturing baseline CGM profile. In case of blinded CGM sensor loss or malfunction, the sensor will be replaced once. Patients with at least 50% sensor data during the blinded wear period will proceed to randomization. At week 0, patients will be randomized to the flash glucose monitoring or SMBG. Both groups will receive standardised education on diabetes self-management, prevention and treatment of hypoglycaemia. This will be accordance with the usual practice at the study site. In the FGM group, patients will receive training on insertion, operation of the device with access to the device software for viewing of ambulatory glucose profiles. Patients will be advised to confirm blood glucose readings with SMBG in the event of hypoglycaemic symptoms, if FGM displays glucose <3.9mmol or in event of glucose instability. Patients randomized to the control group will perform SMBG using dedicated blood glucose meter at least twice daily. Blinded CGM will again be worn in both groups at week 16 for assessment of primary and secondary outcomes. Subjects will compete a hypoglycaemia diary for documenting symptomatic or asymptomatic hypoglycaemia during the study period. Questionnaires on hypoglycaemia unawarenesss, fear of hypoglycaemia and patient-reported outcomes will be completed at baseline, week 8 and week 16 in both groups.
Metoclopramide is a drug approved by the FDA for gastroesophageal reflux and to relieve symptoms in adults with acute and recurrent diabetic gastroparesis. The objective of this study is to determine whether metoclopramide can improve hypoglycemia awareness and decrease the incidence of hypoglycemia in type 1 diabetes patients with hypoglycemia unawareness.
This will be a prospective single-arm before-and-after clinical trial in which raw corn starch (RCS) will be first applied on patients with unoperated insulinoma. Nutritional intervention with supplementation of RCS will be initiated in 20 patients with suspected insulinoma to improve their hypoglycemia before the surgery. Duration of nutritional intervention, fasting blood glucose, lipid profile, weight change, BMI and other metabolic indices will be recorded and compared before and after the intervention.
The survival and the outcomes of critically ill patients are strongly influenced by insulin-therapy and nutritional support. The GLUCOSAFE 2 pilot study, aims to test the performance and the security of the new GLUCOSAFE 2 software, developed by the model-based medical decision support of Aalborg University (Denmark) and adapted to the clinical needs in the intensive care unit (ICU) of the Geneva University Hospital (HUG). This new device is based on a mathematical model of the glucose-insulin metabolism and attempts to give advices for better glycaemia control and nutritional therapy. The GLUCOSAFE 2 study hypothesizes that the use of the Glucosafe 2 software will allow better glycaemia ("Time-in-target") control and better achievement of nutritional energy and protein targets in comparison to the local protocols.
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.
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.