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Literature DB >> 31814659

Plasma-Insulin-Cognizant Adaptive Model Predictive Control for Artificial Pancreas Systems.

Iman Hajizadeh¹, Mudassir Rashid¹, Ali Cinar^1,2.

Abstract

An adaptive model predictive control (MPC) algorithm with dynamic adjustments of constraints and objective function weights based on estimates of the plasma insulin concentration (PIC) is proposed for artificial pancreas (AP) systems. A personalized compartment model that translates the infused insulin into estimates of PIC is integrated with a recursive subspace-based system identification to characterize the transient dynamics of glycemic measurements. The system identification approach is able to identify stable, reliable linear time-varying models from closed-loop data. An MPC algorithm using the adaptive models is designed to compute the optimal exogenous insulin delivery for AP systems without requiring any manually-entered meal information. A dynamic safety constraint derived from the estimation of PIC is incorporated in the adaptive MPC to improve the efficacy of the AP and prevent insulin overdosing. Simulation case studies demonstrate the performance of the proposed adaptive MPC algorithm.

Entities: CellLine Chemical Disease Gene Species

Keywords: adaptive model predictive control; artificial pancreas system; dynamic constraint adjustment; insulin on board; plasma insulin concentration; recursive subspace identification

Year: 2019 PMID： 31814659 PMCID： PMC6897508 DOI： 10.1016/j.jprocont.2019.03.009

Source DB: PubMed Journal: J Process Control ISSN： 0959-1524 Impact factor: 3.666

32 in total

1. Day and Night Closed-Loop Control Using the Integrated Medtronic Hybrid Closed-Loop System in Type 1 Diabetes at Diabetes Camp.

Authors: Trang T Ly; Anirban Roy; Benyamin Grosman; John Shin; Alex Campbell; Salman Monirabbasi; Bradley Liang; Rie von Eyben; Satya Shanmugham; Paula Clinton; Bruce A Buckingham
Journal: Diabetes Care Date: 2015-06-06 Impact factor: 19.112

2. Automated hybrid closed-loop control with a proportional-integral-derivative based system in adolescents and adults with type 1 diabetes: individualizing settings for optimal performance.

Authors: Trang T Ly; Stuart A Weinzimer; David M Maahs; Jennifer L Sherr; Anirban Roy; Benyamin Grosman; Martin Cantwell; Natalie Kurtz; Lori Carria; Laurel Messer; Rie von Eyben; Bruce A Buckingham
Journal: Pediatr Diabetes Date: 2016-05-18 Impact factor: 4.866

3. Fully integrated artificial pancreas in type 1 diabetes: modular closed-loop glucose control maintains near normoglycemia.

Authors: Marc Breton; Anne Farret; Daniela Bruttomesso; Stacey Anderson; Lalo Magni; Stephen Patek; Chiara Dalla Man; Jerome Place; Susan Demartini; Simone Del Favero; Chiara Toffanin; Colleen Hughes-Karvetski; Eyal Dassau; Howard Zisser; Francis J Doyle; Giuseppe De Nicolao; Angelo Avogaro; Claudio Cobelli; Eric Renard; Boris Kovatchev
Journal: Diabetes Date: 2012-06-11 Impact factor: 9.461

Review 4. Hypoglycemia, diabetes, and cardiovascular disease.

Authors: Janet K Snell-Bergeon; R Paul Wadwa
Journal: Diabetes Technol Ther Date: 2012-06 Impact factor: 6.118

5. Closed-Loop Control of Postprandial Glycemia Using an Insulin-on-Board Limitation Through Continuous Action on Glucose Target.

Authors: Paolo Rossetti; Carmen Quirós; Vanessa Moscardó; Anna Comas; Marga Giménez; F Javier Ampudia-Blasco; Fabián León; Eslam Montaser; Ignacio Conget; Jorge Bondia; Josep Vehí
Journal: Diabetes Technol Ther Date: 2017-05-01 Impact factor: 6.118

Plasma-Insulin-Cognizant Adaptive Model Predictive Control for Artificial Pancreas Systems.

1. Day and Night Closed-Loop Control Using the Integrated Medtronic Hybrid Closed-Loop System in Type 1 Diabetes at Diabetes Camp.

2. Automated hybrid closed-loop control with a proportional-integral-derivative based system in adolescents and adults with type 1 diabetes: individualizing settings for optimal performance.

3. Fully integrated artificial pancreas in type 1 diabetes: modular closed-loop glucose control maintains near normoglycemia.

Review 4. Hypoglycemia, diabetes, and cardiovascular disease.

5. Closed-Loop Control of Postprandial Glycemia Using an Insulin-on-Board Limitation Through Continuous Action on Glucose Target.

6. Nocturnal glucose control with an artificial pancreas at a diabetes camp.

7. An integrated multivariable artificial pancreas control system.

8. The UVA/PADOVA Type 1 Diabetes Simulator: New Features.

9. Model individualization for artificial pancreas.

10. MD-Logic overnight control for 6 weeks of home use in patients with type 1 diabetes: randomized crossover trial.

1. Incorporating Prior Information in Adaptive Model Predictive Control for Multivariable Artificial Pancreas Systems.

2. Interval Safety Layer Coupled With an Impulsive MPC for Artificial Pancreas to Handle Intrapatient Variability.