Effects of In Vivo Contact Force on Pulsed-Field Ablation Efficacy in Porcine Ventricles

IF 2.6 3区医学 Q2 CARDIAC & CARDIOVASCULAR SYSTEMS Journal of Cardiovascular Electrophysiology Pub Date : 2025-01-24 DOI:10.1111/jce.16581

Taro Koya, Naoto Otsuka, Jason A. Tri, Yang Ying, Elyana Espinoza, Samuel J. Asirvatham, Duy T. Nguyen

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Abstract

Background

Pulsed-field ablation (PFA) is an innovative non-thermal method for arrhythmia treatment. The efficacy of various PFA configurations in relation to contact force (CF) has not been well-studied in vivo.

Objectives

This study evaluated the effect of CF on acute bipolar PFA lesions in both a vegetal and an in vivo porcine heart model.

Methods

Bipolar PFA (500 V, 20 μs for 50 pulses) was applied to eight porcine ventricles, with CF categorized as standard (5–15 g), high (16–30 g), or very high (> 30 g) using the CARTO 3 system. PFA lesions were assessed by gross pathology, histology, and post-ablation voltage amplitude. Additionally, a vegetal model using oscillating russet potatoes replicated the motion of a beating heart to compare lesion parameters under dynamic conditions and various PFA configurations (monopolar vs. bipolar).

Results

A total of 61 in vivo bipolar PFA lesions across all groups were analyzed. No significant differences in lesion surface diameter, depth, or volume were found among CF groups. In the vegetal model, monopolar setting had a better correlation between CF and lesion depth compared to bipolar setting. In addition, oscillations and catheter position (perpendicular or parallel) significantly affected lesion dimensions.

Conclusion

Increasing CF has a minimal effect on the size of acute bipolar PFA lesions in the porcine ventricle, suggesting that, for bipolar PFA, adequate CF is more critical than its intensity in a beating heart. For monopolar PFA, greater CF can impact lesion depth.

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体内接触力对猪心室脉冲场消融效果的影响。

背景：脉冲场消融（PFA）是一种新颖的治疗心律失常的非热方法。不同PFA结构对接触力（CF）的影响尚未在体内得到很好的研究。目的：本研究在植物性和活体猪心脏模型中评估CF对急性双极性PFA病变的影响。方法：采用CARTO -3系统对8只猪心室施加双极PFA （500 V, 20 μs， 50个脉冲），将CF分为标准（5-15 g）、高（16-30 g）和极高（bb0 -30 g）。通过大体病理、组织学和消融后电压幅值评估PFA病变。此外，利用摆动的赤褐色马铃薯的植物模型复制了跳动的心脏的运动，以比较动态条件和各种PFA配置（单极与双极）下的病变参数。结果：对所有组共61例体内双极性PFA病变进行了分析。CF组间病变表面直径、深度和体积均无显著差异。在植物模型中，单极设置与双极设置相比，CF与病变深度之间的相关性更好。此外，振荡和导管位置（垂直或平行）显著影响病变尺寸。结论：增加CF对猪心室急性双相PFA病变的大小影响很小，这表明对于双相PFA，在跳动的心脏中，足够的CF比其强度更重要。对于单极PFA，较大的CF会影响病变深度。

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

Journal of Cardiovascular Electrophysiology 医学-心血管系统

CiteScore

5.20

自引率

14.80%

发文量

433

审稿时长

3-6 weeks

期刊介绍： Journal of Cardiovascular Electrophysiology (JCE) keeps its readership well informed of the latest developments in the study and management of arrhythmic disorders. Edited by Bradley P. Knight, M.D., and a distinguished international editorial board, JCE is the leading journal devoted to the study of the electrophysiology of the heart.