Bipolar radiofrequency ablation: The impact of tip load, application duration, power, and indifferent electrode size on the transmurality of a lesion

Heart Beat Journal Pub Date : 2019-03-21 DOI:10.24255/HBJ/102680

A. Baszko, W. Telec, P. Kałmucki, K. Kochman, I. Miechowicz, S. Ożegowski, A. Szyszka

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引用次数: 1

Abstract

Background The main determinant of the radiofrequency (RF) ablation effect is transmurality of the lesion. Bipolar radiofrequency ablation (BA) creates transmurality in a higher proportion of cases than unipolar ablation (UA), but little is known about optimal RF settings. Material and methods This study aimed to compare UA and BA based on different application time, cathode tip load, anode size and power settings for achieving a transmural lesion in vitro. A Thermocool electrode was used for ablation (cathode) and a 4 mm or 8 mm tip catheter was used as the ground electrode (anode) for BA. The tested settings were tip load (10 g and 20 g), power (30 W or 40 W), and application duration (30, 60, or 90 s). After ablation, we measured scar size and transmurality of the lesion. Results BA created significantly larger and deeper scars compared with UA. Transmurality was achieved respectively in 42% and 2% of cases (p<0.001). Higher tip load resulted in larger scar size, and transmurality was achieved in 37% and 20% of cases (p=0.05). Scar size and transmurality increased with RF duration (5%, 39% and 42% of specimens, respectively (p<0.001). Bigger tip size of the ground electrode was related to higher transmurality (22% vs 61%, p<0.001). No relationship was found between power and transmurality. Optimal parameter settings were 20 g tip load, indifferent electrode with 8 mm tip, and 90 s RF duration (97.6% transmurality). Conclusions BA is more effective than UA in achieving transmural lesions. Optimal settings for BA consist of longer RF duration, higher tip load, and bigger tip size of the indifferent electrode.

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双极射频消融:尖端负荷、应用时间、功率和不同电极尺寸对病变跨壁性的影响

背景:射频消融效果的主要决定因素是病变的跨壁性。双极射频消融(BA)比单极射频消融(UA)在更高比例的病例中产生透性，但对最佳射频设置知之甚少。材料和方法本研究旨在比较UA和BA基于不同的应用时间，阴极尖端负载，阳极尺寸和功率设置来实现体外跨壁病变。热冷电极用于烧蚀(阴极)，4mm或8mm尖端导管用作BA的接地电极(阳极)。测试设置为针尖负荷(10 g和20 g)、功率(30 W或40 W)和应用时间(30、60或90 s)。消融后，我们测量疤痕大小和病变的跨壁性。结果与UA相比，BA造成的疤痕更大、更深。通透性分别为42%和2% (p<0.001)。较高的尖端负荷导致瘢痕尺寸增大，37%和20%的病例实现了跨壁性(p=0.05)。疤痕大小和跨壁性随射频持续时间增加(分别为5%、39%和42%)(p<0.001)。更大的电极尖端尺寸与更高的透性相关(22% vs 61%， p<0.001)。没有发现权力和超性之间的关系。最佳参数设置为20 g尖端负载、8 mm尖端不同电极、90 s射频持续时间(97.6%透性)。结论BA治疗跨壁病变比UA治疗更有效。BA的最佳设置包括更长的RF持续时间，更高的尖端负载和更大的不同电极的尖端尺寸。

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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Heart Beat Journal

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