使用新型绝缘尖端消融导管的射频消融可以产生与传统灌流消融导管相当的均匀大小的病变，同时使用的能量和灌流仅为其一小部分。

Radiofrequency ablation using a novel insulated-tip ablation catheter can create uniform lesions comparable in size to conventional irrigated ablation catheters while using a fraction of the energy and irrigation.

机构信息

Mercy General Hospital and Dignity Health Heart and Vascular Institute, Sacramento, California, USA.

Instituto de Física de Líquidos y Sistemas Biológicos (CONICET), La Plata, Argentina.

出版信息

J Cardiovasc Electrophysiol. 2022 Jun;33(6):1146-1156. doi: 10.1111/jce.15461. Epub 2022 Apr 12.

DOI:10.1111/jce.15461

PMID:35322477

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9325397/

Abstract

INTRODUCTION

During radiofrequency ablation (RFA) using conventional RFA catheters (RFC), ~90% of the energy dissipates into the bloodstream/surrounding tissue. We hypothesized that a novel insulated-tip ablation catheter (SMT) capable of blocking the radiofrequency path may focus most of the energy into the targeted tissue while utilizing reduced power and irrigation.

METHODS

This study evaluated the outcomes of RFA using SMT versus an RFC in silico, ex vivo, and in vivo. Radiofrequency applications were delivered over porcine myocardium (ex vivo) and porcine thigh muscle preparations superfused with heparinized blood (in vivo). Altogether, 274 radiofrequency applications were delivered using SMT (4-15 W, 2 or 20 ml/min) and 74 applications using RFC (30 W, 30 ml/min).

RESULTS

RFA using SMT proved capable of directing 66.8% of the radiofrequency energy into the targeted tissue. Accordingly, low power-low irrigation RFA using SMT (8-12 W, 2 ml/min) yielded lesion sizes comparable with RFC, whereas high power-high irrigation (15 W, 20 ml/min) RFA with SMT yielded lesions larger than RFC (p < .05). Although SMT was associated with greater impedance drops ex vivo and in vivo, ablation using RFC was associated with increased charring/steam pop/tissue cavitation (p < .05). Lastly, lesions created with SMT were more homogeneous than RFC (p < .001).

CONCLUSION

Low power-low irrigation (8-12 W, 2 ml/min) RFA using the novel SMT ablation catheter can create more uniform, but comparable-sized lesions as RFC with reduced charring/steam pop/tissue cavitation. High power-high irrigation (15 W, 20 ml/min) RFA with SMT yields lesions larger than RFC.

摘要

介绍

在使用传统射频消融（RFA）导管（RFC）进行射频消融（RFA）时，约 90%的能量消散在血液/周围组织中。我们假设，一种新型的绝缘尖端消融导管（SMT）能够阻断射频通路，可能会将大部分能量聚焦到目标组织中，同时利用较低的功率和灌流。

方法

本研究通过计算机模拟、离体和在体实验，评估了 SMT 与 RFC 进行 RFA 的结果。在离体猪心肌和肝素化血液超灌注的猪大腿肌肉标本上进行射频应用。总共使用 SMT（4-15 W，2 或 20 ml/min）进行了 274 次射频应用，使用 RFC（30 W，30 ml/min）进行了 74 次射频应用。

结果

SMT 引导射频能量 66.8%进入目标组织的能力得到了证明。因此，使用 SMT 的低功率低灌流 RFA（8-12 W，2 ml/min）产生的病变大小与 RFC 相当，而使用 SMT 的高功率高灌流（15 W，20 ml/min）产生的病变大于 RFC（p<.05）。尽管 SMT 与更大的离体和体内阻抗下降相关，但 RFC 与增加的炭化/蒸汽 pop/组织空化相关（p<.05）。最后，使用 SMT 产生的病变比 RFC 更均匀（p<.001）。

结论

使用新型 SMT 消融导管进行低功率低灌流（8-12 W，2 ml/min）RFA 可以产生更均匀但与 RFC 相似大小的病变，同时减少炭化/蒸汽 pop/组织空化。使用 SMT 的高功率高灌流（15 W，20 ml/min）RFA 产生的病变大于 RFC。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/559e/9325397/3a115601da6e/JCE-33-1146-g006.jpg

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使用新型绝缘尖端消融导管的射频消融可以产生与传统灌流消融导管相当的均匀大小的病变，同时使用的能量和灌流仅为其一小部分。

Radiofrequency ablation using a novel insulated-tip ablation catheter can create uniform lesions comparable in size to conventional irrigated ablation catheters while using a fraction of the energy and irrigation.

机构信息

出版信息

INTRODUCTION

METHODS

RESULTS

CONCLUSION

介绍

方法

结果

结论

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