Journal of diabetes science and technology
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J Diabetes Sci Technol · Jul 2015
Multicenter StudyMultisite Study of an Implanted Continuous Glucose Sensor Over 90 Days in Patients With Diabetes Mellitus.
Continuous glucose monitoring (CGM), which enables real-time glucose display and trend information as well as real-time alarms, can improve glycemic control and quality of life in patients with diabetes mellitus. Previous reports have described strategies to extend the useable lifetime of a single sensor from 1-2 weeks to 28 days. The present multisite study describes the characterization of a sensing platform achieving 90 days of continuous use for a single, fully implanted sensor. ⋯ The Senseonics CGM, composed of an implantable sensor, external smart transmitter, and smartphone app, is the first system that uses a single sensor for continuous display of accurate glucose values for 3 months.
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J Diabetes Sci Technol · Jul 2015
Observational StudyPerioperative Hyperglycemia and Glucose Variability in Gynecologic Laparotomies.
The glycemic response and its relation to postoperative complications following gynecologic laparotomies is unknown, although these surgeries carry a substantial risk for postoperative morbidity. Therefore, our objective was to assess the prevalence of perioperative hyperglycemia and glucose variability in women undergoing a gynecologic laparotomy. ⋯ Hyperglycemia and glucose variability seem to be a minor problem during gynecologic laparotomy. Based on the current data, we would not advocate standardized glucose measurements in every patient without diabetes undergoing gynecologic laparotomy.
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J Diabetes Sci Technol · Jul 2015
Comparative StudyThe Development of a Continuous Intravascular Glucose Monitoring Sensor.
Glycemic control in hospital intensive care units (ICU) has been the subject of numerous research publications and debate over the past 2 decades. There have been multiple studies showing the benefit of ICU glucose control in reducing both morbidity and mortality. GlySure Ltd has developed a glucose monitor based on a diboronic acid receptor that can continuously measure plasma glucose concentrations directly in a patient's vascular system. The goal of this study was to validate the performance of the GlySure CIGM system in different patient populations. ⋯ The GlySure CIGM System has met the design challenges of measuring intravascular glucose concentrations in critically ill patients with acceptable safety and performance criteria and without disrupting current clinical practice. The accuracy of the data is not affected by the patients' condition.
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J Diabetes Sci Technol · Jul 2015
Multicenter StudyUse of an Intravascular Fluorescent Continuous Glucose Sensor in ICU Patients.
Hyperglycemia and hypoglycemia are associated with adverse clinical outcomes in intensive care patients. In product development studies at 4 ICUs, the safety and performance of an intravascular continuous glucose monitoring (IV-CGM) system was evaluated in 70 postsurgical patients. ⋯ The GluCath System exhibited acceptable accuracy when deployed in a radial artery for up to 48 hours in ICU patients after elective cardiac surgery. Accuracy of venous deployment was substantially lower with significant rates of intravascular thrombus observed using ultrasound.
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J Diabetes Sci Technol · Jul 2015
ReviewVascular Glucose Sensor Symposium: Continuous Glucose Monitoring Systems (CGMS) for Hospitalized and Ambulatory Patients at Risk for Hyperglycemia, Hypoglycemia, and Glycemic Variability.
Hyperglycemia, hypoglycemia, and glycemic variability have been associated with increased morbidity, mortality, length of stay, and cost in a variety of critical care and non-critical care patient populations in the hospital. The results from prospective randomized clinical trials designed to determine the risks and benefits of intensive insulin therapy and tight glycemic control have been confusing; and at times conflicting. The limitations of point-of-care blood glucose (BG) monitoring in the hospital highlight the great clinical need for an automated real-time continuous glucose monitoring system (CGMS) that can accurately measure the concentration of glucose every few minutes. Automation and standardization of the glucose measurement process have the potential to significantly improve BG control, clinical outcome, safety and cost.