Weiwei Ai scite author profile

The heart is a vital organ that relies on the orchestrated propagation of electrical stimuli to coordinate each heart beat. Abnormalities in the heart's electrical behaviour can be managed with a cardiac pacemaker. Recently, the closed-loop testing of pacemakers with an emulation (real-time simulation) of the heart has been proposed. An emulated heart would provide realistic reactions to the pacemaker as if it were a real heart. This enables developers to interrogate their pacemaker design without having to engage in costly or lengthy clinical trials. Many high-fidelity heart models have been developed, but are too computationally intensive to be simulated in real-time. Heart models, designed specifically for the closed-loop testing of pacemakers, are too abstract to be useful in the testing of physical pacemakers.In the context of pacemaker testing, this paper presents a more computationally efficient heart model that generates realistic continuous-time electrical signals. The heart model is composed of cardiac cells that are connected by paths. Significant improvements were made to an existing cardiac cell model to stabilise its activation behaviour and to an existing path model to capture the behaviour of continuous electrical propagation. We provide simulation results that show our ability to faithfully model complex re-entrant circuits (that cause arrhythmia) that existing heart models can not.

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Closing the Loop: Validation of Implantable Cardiac Devices With Computational Heart Models

Patel

Roop

et al. 2020

IEEE J. Biomed. Health Inform.

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A novel approach for model-based design of gastric pacemakers

Wang

Malik

Roop

et al. 2020

Computers in Biology and Medicine

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Weiwei Ai

A Parametric Computational Model of the Action Potential of Pacemaker Cells

Cardiac Electrical Modeling for Closed-Loop Validation of Implantable Devices

Towards the Emulation of the Cardiac Conduction System for Pacemaker Validation

Closing the Loop: Validation of Implantable Cardiac Devices With Computational Heart Models

A novel approach for model-based design of gastric pacemakers

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