| scholarly article | Q13442814 |
| P50 | author | Raymond Davey | Q79374477 |
| P2093 | author name string | Timothy W Jones | |
| Paul A Fournier | |||
| P2860 | cites work | Evaluating the accuracy of continuous glucose-monitoring sensors: continuous glucose-error grid analysis illustrated by TheraSense Freestyle Navigator data | Q30434053 |
| Evaluating clinical accuracy of systems for self-monitoring of blood glucose | Q30463253 | ||
| Continuous subcutaneous glucose monitoring in children with type 1 diabetes | Q31832735 | ||
| Receiver-operating characteristic (ROC) plots: a fundamental evaluation tool in clinical medicine. | Q34363246 | ||
| Relationship of fasting and hourly blood glucose levels to HbA1c values: safety, accuracy, and improvements in glucose profiles obtained using a 7-day continuous glucose sensor | Q34585108 | ||
| Nocturnal hypoglycaemias in type 1 diabetic patients: what can we learn with continuous glucose monitoring? | Q34655720 | ||
| Response to nocturnal alarms using a real-time glucose sensor | Q34696490 | ||
| The accuracy of the FreeStyle Navigator continuous glucose monitoring system in children with type 1 diabetes | Q35574680 | ||
| Improvement in glycemic excursions with a transcutaneous, real-time continuous glucose sensor: a randomized controlled trial | Q36351118 | ||
| The accuracy of the CGMS in children with type 1 diabetes: results of the diabetes research in children network (DirecNet) accuracy study | Q36473851 | ||
| Duration of nocturnal hypoglycemia before seizures | Q36945273 | ||
| Continuous glucose monitoring and diabetes health outcomes: a critical appraisal | Q37080094 | ||
| Subcutaneous glucose predicts plasma glucose independent of insulin: implications for continuous monitoring | Q39517601 | ||
| Clinical performance of CGMS in type 1 diabetic patients treated by continuous subcutaneous insulin infusion using insulin analogs | Q40603108 | ||
| Does fall in tissue glucose precede fall in blood glucose? | Q41063248 | ||
| Hierarchy of physiological responses to hypoglycemia: relevance to clinical hypoglycemia in type I (insulin dependent) diabetes mellitus | Q41460455 | ||
| Interstitial fluid glucose dynamics during insulin-induced hypoglycaemia | Q42480892 | ||
| Detection of hypoglycemia with the GlucoWatch biographer | Q43603793 | ||
| Limitations of conventional methods of self-monitoring of blood glucose: lessons learned from 3 days of continuous glucose sensing in pediatric patients with type 1 diabetes | Q43778825 | ||
| Comparison of glucose concentration in interstitial fluid, and capillary and venous blood during rapid changes in blood glucose levels | Q43836921 | ||
| Defining the relationship between plasma glucose and HbA(1c): analysis of glucose profiles and HbA(1c) in the Diabetes Control and Complications Trial | Q43869392 | ||
| Do sensor glucose levels accurately predict plasma glucose concentrations during hypoglycemia and hyperinsulinemia? | Q43972613 | ||
| Spurious reporting of nocturnal hypoglycemia by CGMS in patients with tightly controlled type 1 diabetes | Q44114796 | ||
| The Continuous Glucose Monitoring System (CGMS) in type 1 diabetic children is the way to reduce hypoglycemic risk. | Q44120124 | ||
| Hypoglycemia prevalence in prepubertal children with type 1 diabetes on standard insulin regimen: use of continuous glucose monitoring system | Q44333441 | ||
| The continuous glucose monitoring system is useful for detecting unrecognized hypoglycemias in patients with type 1 and type 2 diabetes but is not better than frequent capillary glucose measurements for improving metabolic control | Q44381371 | ||
| Use of the GlucoWatch biographer in children with type 1 diabetes | Q44387570 | ||
| Subcutaneous glucose sensor values closely parallel blood glucose during insulin-induced hypoglycaemia. | Q44390432 | ||
| Determination of Plasma Glucose During Rapid Glucose Excursions with a Subcutaneous Glucose Sensor | Q44426115 | ||
| Accuracy of the continuous glucose monitoring system in inpatient and outpatient conditions. | Q44440835 | ||
| Timing of changes in interstitial and venous blood glucose measured with a continuous subcutaneous glucose sensor | Q44631829 | ||
| Comparison of accuracy and safety of the SEVEN and the Navigator continuous glucose monitoring systems | Q44657711 | ||
| Performance assessment of the Medtronic-MiniMed Continuous Glucose Monitoring System and its use for measurement of glycaemic control in Type 1 diabetic subjects | Q44665347 | ||
| Improved metabolic control in diabetic adolescents using the continuous glucose monitoring system (CGMS). | Q44715650 | ||
| Improved glucose excursions using an implantable real-time continuous glucose sensor in adults with type 1 diabetes | Q44779316 | ||
| Alarms based on real-time sensor glucose values alert patients to hypo- and hyperglycemia: the guardian continuous monitoring system | Q44874898 | ||
| Use of the Continuous Glucose Monitoring System to guide therapy in patients with insulin-treated diabetes: a randomized controlled trial | Q45184502 | ||
| Detection of hypoglycemia with continuous interstitial and traditional blood glucose monitoring using the FreeStyle Navigator Continuous Glucose Monitoring System. | Q45987814 | ||
| Continuous glucose monitoring and intensive treatment of type 1 diabetes | Q46380752 | ||
| Evaluation of a continuous glucose monitoring system for home-use conditions. | Q46382105 | ||
| Accuracy, utility and complications of continuous glucose monitoring system (CGMS) in pediatric patients with type 1 diabetes | Q46655363 | ||
| Comparison of a needle-type and a microdialysis continuous glucose monitor in type 1 diabetic patients. | Q46818826 | ||
| Evaluation of CGMS during rapid blood glucose changes in patients with type 1 diabetes. | Q51190552 | ||
| Characterization by microdialysis of intracellular glucose level in subcutaneous tissue in humans | Q51624734 | ||
| Improved Glycemic Control in Poorly Controlled Patients with Type 1 Diabetes Using Real-Time Continuous Glucose Monitoring | Q56093368 | ||
| Use of a subcutaneous glucose sensor to detect decreases in glucose concentration prior to observation in blood | Q71770824 | ||
| Long-term recovery from unawareness, deficient counterregulation and lack of cognitive dysfunction during hypoglycaemia, following institution of rational, intensive insulin therapy in IDDM | Q72643714 | ||
| A new consensus error grid to evaluate the clinical significance of inaccuracies in the measurement of blood glucose | Q74150701 | ||
| [Usefulness of continuous glucose monitoring system in detection of hypoglycaemic episodes in patients with diabetes in course of chronic pancreatitis] | Q79763938 | ||
| P433 | issue | 6 | |
| P921 | main subject | glucose | Q37525 |
| type-1 diabetes | Q124407 | ||
| hypoglycemia | Q202758 | ||
| glucose monitoring | Q95987978 | ||
| P304 | page(s) | 1457-1464 | |
| P577 | publication date | 2010-11-01 | |
| P1433 | published in | Journal of Diabetes Science and Technology | Q15755249 |
| P1476 | title | Effect of short-term use of a continuous glucose monitoring system with a real-time glucose display and a low glucose alarm on incidence and duration of hypoglycemia in a home setting in type 1 diabetes mellitus | |
| P478 | volume | 4 |
| Q41262228 | Analysis: high-tech diabetes technology and the myth of clinical "plug and play". |
| Q38548147 | Automated insulin pump suspension for hypoglycaemia mitigation: development, implementation and implications |
| Q38033059 | Blood glucose monitoring: an overview |
| Q64947889 | Carbohydrate Restriction in Type 1 Diabetes: A Realistic Therapy for Improved Glycaemic Control and Athletic Performance? |
| Q35751626 | Design and rationale of the IN CONTROL trial: the effects of real-time continuous glucose monitoring on glycemia and quality of life in patients with type 1 diabetes mellitus and impaired awareness of hypoglycemia |
| Q33448729 | Diabetes Educators' Intended and Reported Use of Common Diabetes-Related Technologies: Discrepancies and Dissonance |
| Q42756032 | Increasing the low-glucose alarm of a continuous glucose monitoring system prevents exercise-induced hypoglycemia without triggering any false alarms |
| Q37896745 | Intensive insulin therapy in critically ill hospitalized patients: making it safe and effective |
| Q38310888 | Physical activity and type 1 diabetes: time for a rewire? |
| Q36605837 | Pilot study of a prototype minimally invasive intradermal continuous glucose monitor |
| Q64099756 | Real-World Hypoglycemia Avoidance with a Continuous Glucose Monitoring System's Predictive Low Glucose Alert |
| Q48045198 | Why should people with type 1 diabetes exercise regularly? |
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