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Enhanced optimization-based method for the generation of patient-specific models of Purkinje networks

Lucas Arantes Berg, Bernardo Martins Rocha, Rafael Sachetto Oliveira, Rafael Sebastián, Blanca Rodríguez, Rafael Alves Bonfim de Queiroz, Elizabeth M. Cherry, Rodrigo Weber dos Santos

2023Scientific Reports17 citationsDOIOpen Access PDF

Abstract

Cardiac Purkinje networks are a fundamental part of the conduction system and are known to initiate a variety of cardiac arrhythmias. However, patient-specific modeling of Purkinje networks remains a challenge due to their high morphological complexity. This work presents a novel method based on optimization principles for the generation of Purkinje networks that combines geometric and activation accuracy in branch size, bifurcation angles, and Purkinje-ventricular-junction activation times. Three biventricular meshes with increasing levels of complexity are used to evaluate the performance of our approach. Purkinje-tissue coupled monodomain simulations are executed to evaluate the generated networks in a realistic scenario using the most recent Purkinje/ventricular human cellular models and physiological values for the Purkinje-ventricular-junction characteristic delay. The results demonstrate that the new method can generate patient-specific Purkinje networks with controlled morphological metrics and specified local activation times at the Purkinje-ventricular junctions.

Topics & Concepts

Computer sciencePurkinje fibersPolygon meshNeuroscienceBiologyElectrophysiologyComputer graphics (images)Cardiac electrophysiology and arrhythmiasNeuroscience and Neural EngineeringECG Monitoring and Analysis
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