Reversible Pulsed Electrical Fields as an In Vivo Tool to Study Cardiac Electrophysiology: The Advent of Pulsed Field Mapping.

IF 9.1 1区医学 Q1 CARDIAC & CARDIOVASCULAR SYSTEMS

Circulation. Arrhythmia and electrophysiology Pub Date : 2023-10-01 Epub Date: 2023-09-20 DOI:10.1161/CIRCEP.123.012018

Jacob S Koruth, Petr Neuzil, Iwanari Kawamura, Kenji Kuroki, Jan Petru, Gediminas Rackauskas, Moritoshi Funasako, Audrius Aidietis, Vivek Y Reddy

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引用次数: 0

Abstract

Background: During electrophysiological mapping of tachycardias, putative target sites are often only truly confirmed to be vital after observing the effect of ablation. This lack of mapping specificity potentiates inadvertent ablation of innocent cardiac tissue not relevant to the arrhythmia. But if myocardial excitability could be transiently suppressed at critical regions, their suitability as targets could be conclusively determined before delivering tissue-destructive ablation lesions. We studied whether reversible pulsed electric fields (PF_REV) could transiently suppress electrical conduction, thereby providing a means to dissect tachycardia circuits in vivo.

Methods: PF_REV energy was delivered from a 9-mm lattice-tip catheter to the atria of 12 swine and 9 patients, followed by serial electrogram assessments. The effects on electrical conduction were explored in 5 additional animals by applying PF_REV to the atrioventricular node: 17 low-dose (PF_REV-LOW) and 10 high-dose (PF_REV-HIGH) applications. Finally, in 3 patients manifesting spontaneous tachycardias, PF_REV was applied at putative critical sites.

Results: In animals, the immediate post-PF_REV electrogram amplitudes diminished by 74%, followed by 78% recovery by 5 minutes. Similarly, in patients, a 69.9% amplitude reduction was followed by 84% recovery by 3 minutes. Histology revealed only minimal to no focal, superficial fibrosis. PF_REV-LOW at the atrioventricular node resulted in transient PR prolongation and transient AV block in 59% and 6%, while PF_REV-HIGH caused transient PR prolongation and transient AV block in 30% and 50%, respectively. The 3 tachycardia patients had atypical atrial flutters (n=2) and atrioventricular nodal reentrant tachycardia. PF_REV at putative critical sites reproducibly terminated the tachycardias; ablation rendered the tachycardias noninducible and without recurrence during 1-year follow-up.

Conclusions: Reversible electroporation pulses can be applied to myocardial tissue to transiently block electrical conduction. This technique of pulsed field mapping may represent a novel electrophysiological tool to help identify the critical isthmus of tachycardia circuits.

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可逆脉冲电场作为研究心脏电生理学的体内工具：脉冲场标测的出现。

背景：在心动过速的电生理标测过程中，通常只有在观察消融效果后，才能真正确认假定的靶位点是至关重要的。这种缺乏标测特异性的情况会导致无意中消融与心律失常无关的无辜心脏组织。但是，如果心肌兴奋性可以在关键区域被短暂抑制，那么在进行组织破坏性消融损伤之前，就可以最终确定其作为靶点的适用性。我们研究了可逆脉冲电场（PFREV）是否能瞬时抑制导电，从而为体内解剖心动过速回路提供了一种方法。方法：将PFREV能量从9mm格子尖端导管输送到12头猪和9名患者的心房，然后进行系列心电图评估。通过将PFREV应用于房室结，在另外5只动物中探讨了对导电的影响：17只低剂量（PFREV-low）和10只高剂量（PFREV-high）。最后，在3例表现为自发性心动过速的患者中，在假定的关键部位应用PFREV。结果：在动物中，PFREV后即刻的电图振幅降低了74%，随后在5分钟内恢复了78%。同样，在患者中，振幅降低69.9%，随后在3分钟内恢复84%。组织学检查显示仅有轻微或无局灶性浅表纤维化。房室结处的PFREV-LOW导致59%和6%的患者出现短暂PR延长和短暂AV阻滞，而PFREV-HIGH分别导致30%和50%的患者出现暂时PR延长和暂时AV阻滞。3例心动过速患者出现非典型心房颤动（n=2）和房室结折返性心动过速。PFREV在假定的关键位点可重复地终止心动过速；消融使心动过速在1年的随访中不易发生，也不会复发。结论：可逆电穿孔脉冲可以应用于心肌组织，短暂阻断电传导。这种脉冲场标测技术可能代表一种新的电生理工具，有助于识别心动过速回路的关键峡部。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Circulation. Arrhythmia and electrophysiology 医学-心血管系统

CiteScore

13.70

自引率

4.80%

发文量

187

审稿时长

4-8 weeks

期刊介绍： Circulation: Arrhythmia and Electrophysiology is a journal dedicated to the study and application of clinical cardiac electrophysiology. It covers a wide range of topics including the diagnosis and treatment of cardiac arrhythmias, as well as research in this field. The journal accepts various types of studies, including observational research, clinical trials, epidemiological studies, and advancements in translational research.