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Estimation of Personalized Minimal Purkinje Systems From Human Electro-Anatomical Maps

Fernando Barber, Peter Langfield, Miguel Lozano, Ignacio García‐Fernández, Josselin Duchâteau, Mélèze Hocini, Michel Haı̈ssaguerre, Edward J. Vigmond, Rafael Sebastián

2021IEEE Transactions on Medical Imaging28 citationsDOIOpen Access PDF

Abstract

The Purkinje system is a heart structure responsible for transmitting electrical impulses through the ventricles in a fast and coordinated way to trigger mechanical contraction. Estimating a patient-specific compatible Purkinje Network from an electro-anatomical map is a challenging task, that could help to improve models for electrophysiology simulations or provide aid in therapy planning, such as radiofrequency ablation. In this study, we present a methodology to inversely estimate a Purkinje network from a patient's electro-anatomical map. First, we carry out a simulation study to assess the accuracy of the method for different synthetic Purkinje network morphologies and myocardial junction densities. Second, we estimate the Purkinje network from a set of 28 electro-anatomical maps from patients, obtaining an optimal conduction velocity in the Purkinje network of 1.95 ± 0.25 m/s, together with the location of their Purkinje-myocardial junctions, and Purkinje network structure. Our results showed an average local activation time error of 6.8±2.2 ms in the endocardium. Finally, using the personalized Purkinje network, we obtained correlations higher than 0.85 between simulated and clinical 12-lead ECGs.

Topics & Concepts

Computer scienceEndocardiumPurkinje fibersElectrical conduction system of the heartPurkinje cellElectrocardiographyElectrophysiologyArtificial intelligenceNeuroscienceCardiologyMedicineBiologyCerebellumCardiac electrophysiology and arrhythmiasECG Monitoring and AnalysisNeuroscience and Neural Engineering
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