Performance assessment of electrode configurations for the estimation of omnipolar electrograms from high density arrays.

The aim of this study is to propose a method to reduce the sensitivity of the estimated omnipolar electrogram (oEGM) with respect to the angle of the propagation wavefront. A novel configuration of cliques taking into account all four electrodes of a squared cell is proposed. To test this approach, simulations of HD grids of cardiac activations at different propagation angles, conduction velocities, interelectrode distance and electrogram waveforms are considered. The proposed approach successfully provided narrower loops (essentially a straight line) of the electrical field described by the bipole pair with respect to the conventional approach. Estimation of the direction of propagation was improved. Additionally, estimated oEGMs presented larger amplitude, and estimations of the local activation times were more accurate. A novel method to improve the estimation of oEGMs in HD grid of electrodes is proposed. This approach is superior to the existing methods and avoids pitfalls not yet resolved. Robust tools for quantifying the cardiac substrate are crucial to determine with accuracy target ablation sites during an electrophysiological procedure.

Copyright © 2023 The Author(s). Published by Elsevier Ltd.. All rights reserved.

Declaration of Competing Interest The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: Dr. JLM reports receiving speaker fees, honoraria, consultancy, advisory board fees, investigator, committee member, etc. from Medtronic, Microport, Sanofi Aventis, Boston Scientific and Abbott, Dr. RCA reports educational talks for Abbott and Boston scientific. Drs. FC, RC, JM and Mr. SRC and IS report no disclosures.