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Separating the Bell Curves: Will Cardiac Calcium Electroporation Push Collateral Damage Into the Past?
  • Dana Johnson
Dana Johnson
University of Illinois Chicago

Corresponding Author:danacj@uic.edu

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Abstract

This paper explores the innovative approach of cardiac calcium electroporation as a potential advancement in catheter ablation techniques, building upon the historical context of thermal ablation methods. While traditional radiofrequency and cryothermal ablation have significantly improved efficacy and safety, the risk of collateral damage persists. Pulsed-field ablation (PFA) has emerged as a promising non-thermal alternative designed to target cardiac myocytes while sparing adjacent tissues. However, concerns about unintended consequences remain. In this study by Toya et al., the efficacy of low-power PFA augmented with calcium chloride infusion resulted in enhanced lesion formation, with increased surface area, volume, and histological damage, suggesting a potential for improved targeted ablation. Despite these findings, the study acknowledges limitations, including a small sample size and the need for further investigation into calcium’s effects on lesion durability and safety. This exploration represents a nascent step toward redefining cardiac ablation practices, highlighting the possibility of enhanced therapeutic and safety outcomes through innovative strategies. As PFA continues to evolve, incorporating calcium electroporation may further separate the overlapping risks of effective tissue ablation from collateral damage, signaling a transformative shift in cardiac electrophysiology.
21 Sep 2024Submitted to Journal of Cardiovascular Electrophysiology
23 Sep 2024Submission Checks Completed
23 Sep 2024Assigned to Editor
23 Sep 2024Review(s) Completed, Editorial Evaluation Pending
23 Sep 2024Editorial Decision: Accept