Literature DB >> 24876583

Design of the Glucose Rate Increase Detector: A Meal Detection Module for the Health Monitoring System.

Rebecca A Harvey1, Eyal Dassau2, Howard Zisser1, Dale E Seborg1, Francis J Doyle3.   

Abstract

The Glucose Rate Increase Detector (GRID), a module of the Health Monitoring System (HMS), has been designed to operate in parallel to the glucose controller to detect meal events and safely trigger a meal bolus. The GRID algorithm was tuned on clinical data with 40-70 g CHO meals and tested on simulation data with 50-100 g CHO meals. Active closed- and open-loop protocols were executed in silico with various treatments, including automatic boluses based on a 75 g CHO meal and boluses based on simulated user input of meal size. An optional function was used to reduce the recommended bolus using recent insulin and glucose history. For closed-loop control of a 3-meal scenario (50, 75, and 100 g CHO), the GRID improved median time in the 80-180 mg/dL range by 17% and in the >180 range by 14% over unannounced meals, using an automatic bolus for a 75 g CHO meal at detection. Under open-loop control of a 75 g CHO meal, the GRID shifted the median glucose peak down by 73 mg/dL and earlier by 120 min and reduced the time >180 mg/dL by 57% over a missed-meal bolus scenario, using a full meal bolus at detection. The GRID improved closed-loop control in the presence of large meals, without increasing late postprandial hypoglycemia. Users of basal-bolus therapy could also benefit from GRID as a safety alert for missed meal corrections.
© 2014 Diabetes Technology Society.

Entities:  

Keywords:  Health Monitoring System; artificial pancreas; meal detection; safety

Year:  2014        PMID: 24876583      PMCID: PMC4455414          DOI: 10.1177/1932296814523881

Source DB:  PubMed          Journal:  J Diabetes Sci Technol        ISSN: 1932-2968


  30 in total

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Journal:  Pediatr Diabetes       Date:  2012-07-23       Impact factor: 4.866

4.  Carbohydrate counting accuracy and blood glucose variability in adults with type 1 diabetes.

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7.  Clinical evaluation of an automated artificial pancreas using zone-model predictive control and health monitoring system.

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3.  Automatic Detection and Estimation of Unannounced Meals for Multivariable Artificial Pancreas System.

Authors:  Sediqeh Samadi; Mudassir Rashid; Kamuran Turksoy; Jianyuan Feng; Iman Hajizadeh; Nicole Hobbs; Caterina Lazaro; Mert Sevil; Elizabeth Littlejohn; Ali Cinar
Journal:  Diabetes Technol Ther       Date:  2018-02-06       Impact factor: 6.118

4.  Physiology-Invariant Meal Detection for Type 1 Diabetes.

Authors:  James Weimer; Sanjian Chen; Amy Peleckis; Michael R Rickels; Insup Lee
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5.  Switched LPV Glucose Control in Type 1 Diabetes.

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6.  A New Meal Absorption Model for Artificial Pancreas Systems.

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8.  The northeast glucose drift: Stratification of post-breakfast dysglycemia among predominantly Hispanic/Latino adults at-risk or with type 2 diabetes.

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9.  Improved Glycemic Control Observed in Children with Type 1 Diabetes Following the Introduction of Smart Insulin Pens: A Real-World Study.

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  10 in total

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