View clinical trials related to Hypoglycemia.
Filter by:This study aims to assess the impact of real-time continuous glucose monitoring on the frequency, duration, awareness and severity of hypoglycaemia in people with type 1 diabetes and a recent history of severe hypoglycaemia, compared to usual care.
This is a multi-center, randomized, controlled, single-blind, two-way crossover efficacy and safety study in subjects with Type 1 diabetes mellitus. The study involves two daytime clinical research center (CRC) visits with random assignment to receive G-Pen glucagon 1 mg during one period and Novo Glucagon 1 mg during the other. Each daytime visit is preceded by an overnight stay in the CRC. In the morning of the inpatient study visit, the subject is brought into a state of severe hypoglycemia through IV administration of regular insulin diluted in normal saline. After a hypoglycemic state with plasma glucose < 54 mg/dL (3 mmol/L) is verified, the subject is administered a dose of G-Pen or Novo Glucagon via subcutaneous injection. Plasma glucose levels are monitored for up to 180 minutes post-dosing, with a value of >70.0 mg/dL (3.89 mmol/L) or an increase of > 20 mg/dL (>1.11 mmol/L) within 30 minutes of glucagon administration indicating a positive response. After 3 hours, the subject is given a meal and discharged when medically stable. After a wash-out period of 7 to 28 days, subjects return to the CRC, and the procedures are repeated with each subject crossed over to the other treatment. A follow-up visit as a safety check is conducted 2-7 days following administration of the final dose of study drug.
To assess if using the hypoglycemic clamp and functional magnetic resonance imaging (fMRI) scanning in hypoglycemia unaware and aware T1DM patients and healthy controls have showed distinct differences in patterns of brain responses. In particular, T1DM patients who are aware of hypoglycemia (T1DM-Aware) have greater activity in sensory integration brain regions (e.g. parietal lobe and caudate nucleus) in response to hypoglycemia, whereas hypoglycemia unaware T1DM patients (T1DM-Unaware) show no detectable changes in brain reward regions during hypoglycemia.
Women undergoing late preterm birth are at high risk of delivering a newborn with neonatal hypoglycemia. The investigators plan to monitor interstitial glucose levels prior to delivery in these women in order to develop a better understanding of the relationship between maternal hyperglycemia and neonatal hypoglycemia.
Diabetes technology is changing and has quickly become an integral part of diabetes care and management. The study team plans to study the effects of introducing technology to newly diagnosed type 1 diabetes patients. The investigators hypothesize that early access to continuous glucose monitoring (CGM) technology will potentially improve satisfaction scores, hemoglobin A1c, glycemic control, reduce hypoglycemia, and ease the burden of disease when compared to new onset patients who receive standard of care access to CGM.
The purpose of the trial is to characterize the safety and tolerability of dasiglucagon 4 mg/mL following IV administration at increasing doses in healthy volunteers. One cohort of subjects will receive a SC dose of dasiglucagon to characterize the bioavailability of dasiglucagon following SC administration compared to IV administration. Furthermore, the trial aims to assess the potential effect of dasiglucagon on corrected QT interval (QTc) prolongation via a concentrationresponse analysis.
In the present project the investigators will evaluate whether glucagonotropic properties of the gut-derived incretin hormone glucose-dependent insulinotropic polypeptide (GIP) may be utilized as a safeguard against hypoglycemia in the daily life of participants with type 1 Diabetes
It is thought that altered brain lactate handling is involved in the development of impaired awareness of hypoglycemia (IAH), i.e. the inability to timely detect hypoglycemia in people with type 1 diabetes (T1DM). Infusion of lactate diminishes symptomatic and hormonal responses to hypoglycemia in patients with normal awareness of hypoglycemia (NAH), resembling the situation of patients with IAH. It is unknown whether this attenuating effect is due to brain lactate oxidation or the result of lactate-induced alterations of global and regional cerebral blood flow (CBF). Normally, hypoglycemia causes a redistribution of CBF towards the thalamus, from where the sympathetic response to hypoglycemia is coordinated, but in IAH this effect is absent and global CBF is increased. We hypothesize that lactate infusion in patients with NAH will result in blunting of thalamic activation and/or enhanced global CBF. If so, these results may help delineating the pathogenesis of IAH which eventually creates new avenues to protect against the morbidity associated with hypoglycemia and IAH. Study design: Single-blind placebo controlled, randomized cross-over intervention study Study population: T1DM patients with NAH (n=10) Intervention: On two separate occasions, patients with T1DM and NAH will undergo a hyperinsulinemic euglycemic-hypoglycemic glucose clamp with or without the infusion of exogenous lactate. ASL-MRI will be applied to measure global and regional changes in CBF. Main study parameters/endpoints: The change in regional thalamic CBF in response to intravenous lactate infusion compared to placebo, during hypoglycemia
Tahneek is an Arabic word which means putting something sweet such as dates, in the infant's mouth after the birth. Neonatal hypoglycemia is common in the first few days after birth. Up to 15 % of normal newborn babies will have low blood glucose concentrations. It has been demonstrated that treatment of neonatal hypoglycemia with oral dextrose gel was more effective than feeding alone in reversing the hypoglycemia, and also reduced the rate of NICU admission. investigators study is using dates to asses its effect on hypoglycemia in infants at risk.
Intense exercise is a major challenge to the management of type 1 diabetes. The management is even more difficult, during a camp, probably due to increased hypoglycemia maybe from increase of intensity of physical activity. The investigators want to evaluate steps, energy expenditure, sleep time and glycemic control and insulin dosage, through use of a wrist accelerometer, in pediatric type 1 patients attending a camp. Finding a correlation between these parameters could be useful not only for educational purposes but also in the development of algorithms for artificial pancreas.