New features and performance of a next-generation SEVEN-day continuous glucose monitoring system with short lag time.
about
Continuous Glucose Monitoring Sensors: Past, Present and Future Algorithmic Challenges.Modeling the Error of the Medtronic Paradigm Veo Enlite Glucose SensorNew-generation diabetes management: glucose sensor-augmented insulin pump therapy.Accuracy of a Novel Noninvasive Multisensor Technology to Estimate Glucose in Diabetic Subjects During Dynamic Conditions.Clinical performance of a low cost near infrared sensor for continuous glucose monitoring applied with subcutaneous microdialysis.Rate-of-Change Dependence of the Performance of Two CGM Systems During Induced Glucose Swings.Impact of retrospective calibration algorithms on hypoglycemia detection in newborn infants using continuous glucose monitoring.Accuracy of Continuous Glucose Monitoring During Three Closed-Loop Home Studies Under Free-Living Conditions.The Performance and Usability of a Factory-Calibrated Flash Glucose Monitoring SystemThe Accuracy and Efficacy of the Dexcom G4 Platinum Continuous Glucose Monitoring System.Periodic extraction of interstitial fluid from the site of subcutaneous insulin infusion for the measurement of glucose: a novel single-port technique for the treatment of type 1 diabetes patients.Evaluating the accuracy and large inaccuracy of two continuous glucose monitoring systems.Continuous glucose monitoring accuracy results vary between assessment at home and assessment at the clinical research centerClosed-loop basal insulin delivery over 36 hours in adolescents with type 1 diabetes: randomized clinical trial.A review on B-type natriuretic peptide monitoring: assays and biosensorsA new-generation continuous glucose monitoring system: improved accuracy and reliability compared with a previous-generation system.Continuous glucose monitoring in the subcutaneous tissue over a 14-day sensor wear period.Model-based closed-loop glucose control in type 1 diabetes: the DiaCon experienceEvaluation of the performance of a novel system for continuous glucose monitoring.Performance evaluation of a continuous glucose monitoring system under conditions similar to daily life.Performance evaluation of three continuous glucose monitoring systems: comparison of six sensors per subject in parallel.In vitro glucose measurement using tunable mid-infrared laser spectroscopy combined with fiber-optic sensor.Estimating plasma glucose from interstitial glucose: the issue of calibration algorithms in commercial continuous glucose monitoring devices.Benefits of blinded continuous glucose monitoring during a randomized clinical trial.Factory-Calibrated Continuous Glucose Sensors: The Science Behind the TechnologyPerformance evaluations of continuous glucose monitoring systems: precision absolute relative deviation is part of the assessmentMinimizing the impact of time lag variability on accuracy evaluation of continuous glucose monitoring systems.Practical Considerations on the Use of Continuous Glucose Monitoring in Pediatrics and Older Adults and Nonadjunctive Use.Model of glucose sensor error components: identification and assessment for new Dexcom G4 generation devices.Interstitial Glucose and Lactate Levels Are Inversely Correlated With the Body Mass Index: Need for In Vivo Calibration of Glucose Sensor Results With Blood Values in Obese Patients.Extensive Assessment of Blood Glucose Monitoring During Postprandial Period and Its Impact on Closed-Loop Performance.
P2860
Q30354574-516F3AA8-7A30-4B4C-A25C-E3C944F0C8BFQ33856862-7B363F64-9AB4-453A-BF36-4A9DD5B09FA3Q35224968-EBA11554-1ADF-45CB-A5CA-F2697B9C5AA4Q35679059-4F5419E1-06B1-45C9-AFA9-E8167DF0EE45Q35682325-3043EF53-7900-4E11-AD33-8D4C2ABC4CB7Q35918385-80EA94F2-93ED-4A66-82C2-41CD2B07ECC9Q36281840-DFFAC40C-6706-4D6A-976F-1CC43A2AD3D9Q36291620-33CE0445-3E0B-4F5B-A32F-D8AB40A5D2D4Q36291631-4096F668-8C2D-4AC8-9FB9-8E7EB6DCFA1EQ36340499-EBA81A4F-4CFE-476E-97C9-A55DB92DC5EEQ36520583-23B71A3C-5E4A-4317-AB8F-085674C98A6AQ36572849-CB497CAE-7047-464B-9611-BB97ABDC238BQ36605708-FD4510A8-4A11-4798-82E7-AB36099F1FF3Q36720273-64D4ED3B-0A3F-40A2-8669-FD51B837DEDBQ37171880-07A204BC-5F87-4904-99D7-DB62F9531EEFQ37192444-6A20EAB6-708E-45C8-8EDA-D9D5400697F7Q37421643-B7F55BE9-719C-46D4-81D8-7281C053E8EFQ37421657-9689885D-A7EB-449D-813A-187B751F016DQ37429130-4D34ECDC-E090-4561-BD08-F0DD14498DFFQ37429133-57F41739-7F05-4EF6-8223-F4D3C31041ECQ37429137-A027DBDA-FD87-45C3-8D85-A0C54ADCA472Q37476889-BED6F762-3741-4978-BF9F-DE5EB61EA202Q37967765-D6A62C5A-9186-4F17-A0ED-B027FD5EC8E3Q38694198-09FFEB75-5769-4776-9B1D-AD3D05D13EB1Q38765673-C7C6C7B2-3469-41CF-9635-C829506E20D4Q41848709-1FF07521-C40B-43E9-88F7-B7BA9CF22CD1Q41978880-1F858110-9B1A-41B1-BBDA-26C487A33897Q42208849-13E7EBA7-E417-4D2E-B0A2-86BF8E222DCDQ44004859-A002208C-58D4-4D36-9270-CBFEE8FE129AQ47654363-7E7A1C76-07F9-4BC8-92DB-169B633EF5C4Q47794665-DE031943-A94A-49AC-835F-34BAEC185461
P2860
New features and performance of a next-generation SEVEN-day continuous glucose monitoring system with short lag time.
description
2009 nî lūn-bûn
@nan
2009年の論文
@ja
2009年学术文章
@wuu
2009年学术文章
@zh
2009年学术文章
@zh-cn
2009年学术文章
@zh-hans
2009年学术文章
@zh-my
2009年学术文章
@zh-sg
2009年學術文章
@yue
2009年學術文章
@zh-hant
name
New features and performance o ...... ng system with short lag time.
@en
New features and performance o ...... ng system with short lag time.
@nl
type
label
New features and performance o ...... ng system with short lag time.
@en
New features and performance o ...... ng system with short lag time.
@nl
prefLabel
New features and performance o ...... ng system with short lag time.
@en
New features and performance o ...... ng system with short lag time.
@nl
P2093
P356
P1476
New features and performance o ...... ng system with short lag time.
@en
P2093
Anna Chang
Howard Zisser
Timothy Bailey
P304
P356
10.1089/DIA.2009.0075
P577
2009-12-01T00:00:00Z