View clinical trials related to Nocturnal Hypoglycemia.
Filter by:Increased daytime activity in children and adolescents with type I diabetes is known to be associated with overnight hypoglycemia. We therefore wish to perform a prospective clinical study to assess the feasibility of using activity monitor data to adjust insulin pump basal rates and see whether we can help prevent overnight hypoglycemia or decrease related interventions following high activity days. We plan to carry this out by enrolling 20 subjects (10 subjects 1 to <7 years old and 10 subjects 7 to 17 years old) with type 1 diabetes managed on insulin pump therapy and having them wear activity monitors and CGMs for up to 3 months. After an initial two-week period to establish activity baselines, we will recommend nighttime basal insulin rate adjustments based on activity monitor, CGM and insulin pump data.
Hypo Sense is a non- invasive method for detection of hypoglycemia. The Hypo Sense combines an array of non-invasive sensors which monitors the patient's physiological parameters (heart & respiration rate, perspiration, skin temperature and arm motion) designed as a wrist watch device. The Hypo sense is intended for monitoring symptoms of hypoglycemia in diabetic patients in hospital environment among type 1 and type 2 diabetes adults as an adjunctive device to reference methods The proposed study will be consisting of two main segments: The primary aim of segment 1 of the study is data collection and calibration of the Hypo Sense sensor prototype compared to standard invasive reference glucometer. The primary aim of segment 2 of the study is to validate the Hypo Sense prototype performance in detecting hypoglycemic events. During the first segment of the study we intend to collect in parallel measurements of blood glucose using reference method (capillary glucometer) and continuous data generated by the non- invasive study device during approximately 4 hours, in which a hypoglycemic event will be induced. The reference and study device data will be analyzed using multivariate regression model to formulate a calibration algorithm model. This model will translate the set of the physiological recorded parameters into detection of hypoglycemic events. During the second segment of the study we intend to evaluate the validity of the Hypo Sense sensor ability to detect hypoglycemic events compared to standard invasive reference method (capillary glucometer).
The purpose of this study is to determine whether insulin degludec compared to insulin glargine can reduce the risk of symptomatic nocturnal hypoglycaemia in subjects with the greatest potential benefit from optimised insulin treatment, which are patients with type 1 diabetes and high risk of nocturnal severe hypoglycaemia.
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.