| scholarly article | Q13442814 |
| P2093 | author name string | F Hariri | |
| M F Saad | |||
| G M Steil | |||
| K Rebrin | |||
| C Darwin | |||
| S Jinagonda | |||
| S Tadros | |||
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| P433 | issue | 9 | |
| P921 | main subject | hypoglycemia | Q202758 |
| preproinsulin | Q7240673 | ||
| P304 | page(s) | 1833-1840 | |
| P577 | publication date | 2005-07-07 | |
| P1433 | published in | Diabetologia | Q5270140 |
| P1476 | title | Interstitial fluid glucose dynamics during insulin-induced hypoglycaemia | |
| P478 | volume | 48 |
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| Q30370423 | Comparison of the numerical and clinical accuracy of four continuous glucose monitors |
| Q87056105 | Continuous Glucose Monitoring After Gastric Bypass to Evaluate the Glucose Variability After a Low-Carbohydrate Diet and to Determine Hypoglycemia |
| Q34399254 | Continuous Glucose Monitoring in Subjects with Type 1 Diabetes: Improvement in Accuracy by Correcting for Background Current |
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| Q37689912 | Delays in minimally invasive continuous glucose monitoring devices: a review of current technology |
| Q33738030 | Development of robust calibration models using support vector machines for spectroscopic monitoring of blood glucose |
| Q30416241 | Diabetes technology: markers, monitoring, assessment, and control of blood glucose fluctuations in diabetes |
| Q30434551 | Diabetes: Models, Signals, and Control |
| Q34420010 | 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 |
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| Q35447304 | Fitting dynamic models with forcing functions: application to continuous glucose monitoring in insulin therapy |
| Q39784367 | Glucose levels at the site of subcutaneous insulin administration and their relationship to plasma levels |
| Q33789335 | Glucose sensing in the peritoneal space offers faster kinetics than sensing in the subcutaneous space |
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| Q30299941 | Hypoglycemia Reduction and Accuracy of Continuous Glucose Monitoring |
| Q61911060 | Identification of CGM Time Delays and Implications for BG Control in T1DM |
| Q37404470 | Identification of intraday metabolic profiles during closed-loop glucose control in individuals with type 1 diabetes |
| Q37190633 | Interstitial Fluid Glucose Is Not Just a Shifted-in-Time but a Distorted Mirror of Blood Glucose: Insight from an In Silico Study |
| Q89002574 | Interstitium versus Blood Equilibrium in Glucose Concentration and its Impact on Subcutaneous Continuous Glucose Monitoring Systems |
| Q30438608 | Linear quadratic gaussian-based closed-loop control of type 1 diabetes |
| Q36189939 | Measurement delay associated with the Guardian RT continuous glucose monitoring system |
| Q35757262 | Modeling Plasma-to-Interstitium Glucose Kinetics from Multitracer Plasma and Microdialysis Data |
| Q36889783 | Modeling and Measurement of Correlation between Blood and Interstitial Glucose Changes |
| Q57067114 | Modeling glucose transport from systemic circulation to sweat |
| Q30438611 | Modeling of Calibration Effectiveness and Blood-to-Interstitial Glucose Dynamics as Potential Confounders of the Accuracy of Continuous Glucose Sensors during Hyperinsulinemic Clamp |
| Q33856862 | Modeling the Error of the Medtronic Paradigm Veo Enlite Glucose Sensor |
| Q64944695 | Monitoring biomolecule concentrations in tissue using a wearable droplet microfluidic-based sensor. |
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| Q37404056 | Putative delays in interstitial fluid (ISF) glucose kinetics can be attributed to the glucose sensing systems used to measure them rather than the delay in ISF glucose itself |
| Q35918385 | Rate-of-Change Dependence of the Performance of Two CGM Systems During Induced Glucose Swings |
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| Q34209110 | Use of Subcutaneous Interstitial Fluid Glucose to Estimate Blood Glucose: Revisiting Delay and Sensor Offset |
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| Q38044675 | Wearable and implantable pancreas substitutes |
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