Radiofrequency ablation-Real-time visualization of lesions and their correlation with underlying parameters.

IF 1.7 4区医学 Q3 CARDIAC & CARDIOVASCULAR SYSTEMS

Pace-Pacing and Clinical Electrophysiology Pub Date : 2024-08-01 Epub Date: 2024-05-10 DOI:10.1111/pace.14992

Fabian Bahlke, Andreas Wachter, Nico Erhard, Florian Englert, Jan Syväri, Hannah Krafft, Miruna Popa, Edison Abdiu, Carsten Lennerz, Marta Telishevska, Sarah Lengauer, Tilko Reents, Gabriele Hessling, Isabel Deisenhofer, Felix Bourier

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引用次数: 0

Abstract

Background: Lesion durability and transmurality are crucial for successful radiofrequency (RF) ablation. This study provides a model of real-time RF lesion visualization and insights into the role of underlying parameters, as local impedance (LI).

Methods: A force-sensing, LI-sensing catheter was used for lesion creation in an ex vivo model involving cross-sections of porcine cardiac preparations. During 60 s of RF application, one measurement per second was performed regarding lesion size and available ablation parameters. In total, 1847 measurements from n = 36 lesions were performed. Power (20-50 W) and contact force (1-5 g, 10-15 g, 20-25 g) were systematically alternated.

Results: Lesion formation was most prominent in the first seconds of RF application during which nonlinear lesion growth was observed (max. 1.08 mm/s for lesion depth and 2.71 mm/s for lesion diameter). Power levels determined the extent of lesion formation in the early phase. After 20 s, lesion size growth velocity approaches 0.1 mm/s at all power levels. LI changes were also highest in the first seconds (up to - 12 Ω/s) and decreased to less than - 0.1Ω/s after prolonged application.

Conclusion: Lesion formation in irrigated RF ablation is a nonlinear process. Final lesion size resulting from an RF application is mainly influenced by high rates of lesion growth in the first seconds of ablation. LI seems to be a good surrogate for differentiating changes in lesion formation.

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射频消融--病变的实时可视化及其与基本参数的相关性。

背景：病灶的持久性和透射性是射频（RF）消融成功的关键。本研究提供了一个实时射频病灶可视化模型，并深入探讨了局部阻抗（LI）等基本参数的作用：方法：在涉及猪心脏制备横截面的体外模型中，使用力传感和局部阻抗传感导管创建病灶。在 60 秒的射频应用期间，每秒对病灶大小和可用的消融参数进行一次测量。总共对 n = 36 个病灶进行了 1847 次测量。功率（20-50 W）和接触力（1-5 g、10-15 g、20-25 g）系统地交替进行：结果：病变的形成在射频应用的最初几秒钟最为明显，在此期间观察到病变的非线性生长（病变深度最大为 1.08 mm/s，病变直径最大为 2.71 mm/s）。功率水平决定了早期阶段病变形成的程度。20 秒后，在所有功率水平下，病变大小的增长速度均接近 0.1 毫米/秒。LI的变化在最初几秒钟也是最大的（高达-12Ω/s），长时间应用后，LI的变化降至-0.1Ω/s以下：结论：灌注射频消融的病灶形成是一个非线性过程。结论：射频灌注消融过程中病灶的形成是一个非线性过程。射频应用导致的最终病灶大小主要受消融最初几秒钟内病灶高速增长的影响。LI似乎是区分病灶形成变化的良好替代物。

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

Pace-Pacing and Clinical Electrophysiology 医学-工程：生物医学

CiteScore

2.70

自引率

5.60%

发文量

209

审稿时长

2-4 weeks

期刊介绍： Pacing and Clinical Electrophysiology (PACE) is the foremost peer-reviewed journal in the field of pacing and implantable cardioversion defibrillation, publishing over 50% of all English language articles in its field, featuring original, review, and didactic papers, and case reports related to daily practice. Articles also include editorials, book reviews, Musings on humane topics relevant to medical practice, electrophysiology (EP) rounds, device rounds, and information concerning the quality of devices used in the practice of the specialty.