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Literature DB >> 29451021

The UVA/Padova Type 1 Diabetes Simulator Goes From Single Meal to Single Day.

Roberto Visentin¹, Enrique Campos-Náñez², Michele Schiavon¹, Dayu Lv², Martina Vettoretti¹, Marc Breton², Boris P Kovatchev², Chiara Dalla Man¹, Claudio Cobelli¹.

Abstract

BACKGROUND: A new version of the UVA/Padova Type 1 Diabetes (T1D) Simulator is presented which provides a more realistic testing scenario. The upgrades to the previous simulator, which was accepted by the Food and Drug Administration in 2013, are described.
METHOD: Intraday variability of insulin sensitivity (SI) has been modeled, based on clinical T1D data, accounting for both intra- and intersubject variability of daily SI. Thus, time-varying distributions of both subject's basal insulin infusion and insulin-to-carbohydrate ratio were calculated and made available to the user. A model of "dawn" phenomenon based on clinical T1D data has been also included. Moreover, the model of subcutaneous insulin delivery has been updated with a recently developed model of commercially available fast-acting insulin analogs. Models of both intradermal and inhaled insulin pharmacokinetics have been included. Finally, new models of error affecting continuous glucose monitoring and self-monitoring of blood glucose devices have been added.
RESULTS: One hundred in silico adults, adolescent, and children have been generated according to the above modifications. The new simulator reproduces the intraday glucose variability observed in clinical data, also describing the nocturnal glucose increase, and the simulated insulin profiles reflect real life data.
CONCLUSIONS: The new modifications introduced in the T1D simulator allow to extend its domain of validity from "single-meal" to "single-day" scenarios, thus enabling a more realistic framework for in silico testing of advanced diabetes technologies including glucose sensors, new insulin molecules and artificial pancreas.

Entities: Chemical Disease Gene Species

Keywords: computer simulation; diabetes control; modeling

Mesh：

Substances：
Blood Glucose

Year: 2018 PMID： 29451021 PMCID： PMC5851236 DOI： 10.1177/1932296818757747

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

38 in total

1. Circadian variability of insulin sensitivity: physiological input for in silico artificial pancreas.

Authors: Roberto Visentin; Chiara Dalla Man; Yogish C Kudva; Ananda Basu; Claudio Cobelli
Journal: Diabetes Technol Ther Date: 2015-01 Impact factor: 6.118

2. 2 month evening and night closed-loop glucose control in patients with type 1 diabetes under free-living conditions: a randomised crossover trial.

Authors: Jort Kropff; Simone Del Favero; Jerome Place; Chiara Toffanin; Roberto Visentin; Marco Monaro; Mirko Messori; Federico Di Palma; Giordano Lanzola; Anne Farret; Federico Boscari; Silvia Galasso; Paolo Magni; Angelo Avogaro; Patrick Keith-Hynes; Boris P Kovatchev; Daniela Bruttomesso; Claudio Cobelli; J Hans DeVries; Eric Renard; Lalo Magni
Journal: Lancet Diabetes Endocrinol Date: 2015-09-30 Impact factor: 32.069

3. Run-to-run tuning of model predictive control for type 1 diabetes subjects: in silico trial.

Authors: Lalo Magni; Marco Forgione; Chiara Toffanin; Chiara Dalla Man; Boris Kovatchev; Giuseppe De Nicolao; Claudio Cobelli
Journal: J Diabetes Sci Technol Date: 2009-09-01

4. A Model of Self-Monitoring Blood Glucose Measurement Error.

Authors: Martina Vettoretti; Andrea Facchinetti; Giovanni Sparacino; Claudio Cobelli
Journal: J Diabetes Sci Technol Date: 2017-03-16

5. Run-to-run control of blood glucose concentrations for people with Type 1 diabetes mellitus.

Authors: Camelia Owens; Howard Zisser; Lois Jovanovic; Bala Srinivasan; Dominique Bonvin; Francis J Doyle
Journal: IEEE Trans Biomed Eng Date: 2006-06 Impact factor: 4.538

6. Model of glucose sensor error components: identification and assessment for new Dexcom G4 generation devices.

Authors: Andrea Facchinetti; Simone Del Favero; Giovanni Sparacino; Claudio Cobelli
Journal: Med Biol Eng Comput Date: 2014-11-23 Impact factor: 2.602

7. Pharmacokinetic Model of the Transport of Fast-Acting Insulin From the Subcutaneous and Intradermal Spaces to Blood.

Authors: Dayu Lv; Sandip D Kulkarni; Alice Chan; Stephen Keith; Ron Pettis; Boris P Kovatchev; Leon S Farhi; Marc D Breton
Journal: J Diabetes Sci Technol Date: 2015-03-09

8. Day-and-Night Closed-Loop Glucose Control in Patients With Type 1 Diabetes Under Free-Living Conditions: Results of a Single-Arm 1-Month Experience Compared With a Previously Reported Feasibility Study of Evening and Night at Home.

Authors: Eric Renard; Anne Farret; Jort Kropff; Daniela Bruttomesso; Mirko Messori; Jerome Place; Roberto Visentin; Roberta Calore; Chiara Toffanin; Federico Di Palma; Giordano Lanzola; Paolo Magni; Federico Boscari; Silvia Galasso; Angelo Avogaro; Patrick Keith-Hynes; Boris Kovatchev; Simone Del Favero; Claudio Cobelli; Lalo Magni; J Hans DeVries
Journal: Diabetes Care Date: 2016-05-05 Impact factor: 19.112

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

Authors: Chiara Dalla Man; Francesco Micheletto; Dayu Lv; Marc Breton; Boris Kovatchev; Claudio Cobelli
Journal: J Diabetes Sci Technol Date: 2014-01-01

10. Enhancing automatic closed-loop glucose control in type 1 diabetes with an adaptive meal bolus calculator - in silico evaluation under intra-day variability.

Authors: Pau Herrero; Jorge Bondia; Oloruntoba Adewuyi; Peter Pesl; Mohamed El-Sharkawy; Monika Reddy; Chris Toumazou; Nick Oliver; Pantelis Georgiou
Journal: Comput Methods Programs Biomed Date: 2017-06-01 Impact factor: 5.428

25 in total

1. Identifiability Analysis of Three Control-Oriented Models for Use in Artificial Pancreas Systems.

Authors: Jose Garcia-Tirado; Christian Zuluaga-Bedoya; Marc D Breton
Journal: J Diabetes Sci Technol Date: 2018-08-10

2. Hypoglycemia Prevention via Personalized Glucose-Insulin Models Identified in Free-Living Conditions.

Authors: Chiara Toffanin; Eleonora Maria Aiello; Claudio Cobelli; Lalo Magni
Journal: J Diabetes Sci Technol Date: 2019-10-23

3. Detection of Insulin Pump Malfunctioning to Improve Safety in Artificial Pancreas Using Unsupervised Algorithms.

Authors: Lorenzo Meneghetti; Gian Antonio Susto; Simone Del Favero
Journal: J Diabetes Sci Technol Date: 2019-10-14

4. Using an Online Disturbance Rejection and Anticipation System to Reduce Hyperglycemia in a Fully Closed-Loop Artificial Pancreas System.

Authors: John P Corbett; Jose Garcia-Tirado; Patricio Colmegna; Jenny L Diaz Castaneda; Marc D Breton
Journal: J Diabetes Sci Technol Date: 2021-12-03

Review 5. GLYFE: review and benchmark of personalized glucose predictive models in type 1 diabetes.

Authors: Maxime De Bois; Mounîm A El Yacoubi; Mehdi Ammi
Journal: Med Biol Eng Comput Date: 2021-11-09 Impact factor: 2.602

Review 6. Modeling of Diabetes and Its Clinical Impact.

Authors: Katharina Fritzen; Lutz Heinemann; Oliver Schnell
Journal: J Diabetes Sci Technol Date: 2018-07-13

7. In Silico Analysis of an Exercise-Safe Artificial Pancreas With Multistage Model Predictive Control and Insulin Safety System.

Authors: Jose Garcia-Tirado; Patricio Colmegna; John P Corbett; Basak Ozaslan; Marc D Breton
Journal: J Diabetes Sci Technol Date: 2019-11