Development, calibration, and validation of a novel human ventricular myocyte model in health, disease, and drug block

J. Tomek ¹

Bueno-Orovio Alfonso ¹

Elisa Passini ¹

Xin Zhou ¹

Ana Mincholé ¹

Oliver Britton ¹

Chiara Bartolucci ²

Simone Severi ²

Alvin Shrier ³

László Virág ⁴

András Varró ⁴

Blanca Rodriguez ¹

Show full list: 12 authors

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Department of Computer Science, British Heart Foundation Centre of Research Excellence, University of Oxford, Oxford, United Kingdom |

Department of Electrical, Electronic, and Information Engineering "Guglielmo Marconi", University of Bologna, Bologna, Italy

Department Of Physiology, McGill University, Montreal, Canada |

⁴

Department of Pharmacology and Pharmacotherapy, Faculty of Medicine, University of Szeged, Szeged, Hungary |

Publication type: Journal Article

Publication date: 2019-12-24

eLife Sciences Publications

Journal: eLife

scimago Q1

SJR: 3.932

CiteScore: 12.9

Impact factor: 6.4

ISSN: 2050084X

DOI: 10.7554/elife.48890

Copy DOI

PubMed ID: 31868580

General Biochemistry, Genetics and Molecular Biology

General Medicine

General Immunology and Microbiology

General Neuroscience

Abstract

Human-based modelling and simulations are becoming ubiquitous in biomedical science due to their ability to augment experimental and clinical investigations. Cardiac electrophysiology is one of the most advanced areas, with cardiac modelling and simulation being considered for virtual testing of pharmacological therapies and medical devices. Current models present inconsistencies with experimental data, which limit further progress. In this study, we present the design, development, calibration and independent validation of a human-based ventricular model (ToR-ORd) for simulations of electrophysiology and excitation-contraction coupling, from ionic to whole-organ dynamics, including the electrocardiogram. Validation based on substantial multiscale simulations supports the credibility of the ToR-ORd model under healthy and key disease conditions, as well as drug blockade. In addition, the process uncovers new theoretical insights into the biophysical properties of the L-type calcium current, which are critical for sodium and calcium dynamics. These insights enable the reformulation of L-type calcium current, as well as replacement of the hERG current model.

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