Real-time Ripple technique: A case report on Ripple map for real-time identification of conduction gaps without first-pass pulmonary vein isolation

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Abstract

This paper presents a novel approach to gap mapping in pulmonary vein isolation (PVI) for atrial fibrillation (AF) treatment, utilizing the real-time Ripple (RR) technique. Radiofrequency (RF) catheter ablation, particularly encircling PVI, is a common intervention for AF. Identifying left atrium–pulmonary vein conduction gaps is crucial for achieving PVI with minimal additional ablation if first-pass PVI is unsuccessful. However, identifying conduction gaps can be relatively challenging, often necessitating manual electrocardiogram reannotation due to the limitations of local activation time (LAT) maps. In the case of a 63-year-old patient with drug-resistant symptomatic persistent AF, the RR technique was utilized to identify conduction gaps during RF ablation. The technique involved pausing fast anatomical mapping (FAM), activating Ripple map (RM) feature on the CARTO 3 system and acquiring points with an ultrahigh-resolution mapping catheter. This approach revealed that the actual site of earliest activation differs from the LAT map indication, enabling successful PVI.
The RM feature's capability to reflect actual excitation propagation without reliance on map annotations was crucial for precise conduction gap identification, overcoming inter-operator variability and inaccuracies of conventional methods. The RR technique not only facilitated real-time analysis during gap mapping but also significantly reduced the procedure time, minimizing potential complications.
This case report highlights the efficacy of the RR technique in real-time gap mapping, demonstrating its value in cases where first-pass PVI is unsuccessful. The integration of this technique into PVI procedures can enhance both the accuracy and efficiency of catheter ablation for AF.
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实时波纹技术:无需第一道肺静脉隔离即可实时识别传导间隙的波纹图病例报告。
本文介绍了一种利用实时波纹(RR)技术绘制肺静脉隔离(PVI)间隙图以治疗心房颤动(AF)的新方法。射频(RF)导管消融术,尤其是环绕肺静脉隔离术,是治疗房颤的常见干预措施。识别左心房-肺静脉传导间隙对于在首次 PVI 不成功的情况下以最少的额外消融实现 PVI 至关重要。然而,由于局部激活时间(LAT)图的局限性,识别传导间隙可能相对具有挑战性,通常需要手动重新标注心电图。在一名 63 岁的耐药症状性持续房颤患者的病例中,射频消融过程中使用了 RR 技术来识别传导间隙。该技术包括暂停快速解剖绘图(FAM),激活 CARTO 3 系统的波纹图(RM)功能,并使用超高分辨率绘图导管采集点。这种方法揭示了最早激活的实际部位与 LAT 地图指示不同,从而成功地进行了 PVI。RM功能能够反映实际的兴奋传播,而无需依赖地图注释,这对于精确识别传导间隙至关重要,克服了操作者之间的差异和传统方法的不准确性。RR 技术不仅有助于在间隙图绘制过程中进行实时分析,还大大缩短了手术时间,将潜在的并发症降至最低。本病例报告强调了 RR 技术在实时间隙映射中的功效,证明了它在首次 PVI 不成功的病例中的价值。将该技术整合到 PVI 手术中可提高房颤导管消融的准确性和效率。
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
Indian Pacing and Electrophysiology Journal
Indian Pacing and Electrophysiology Journal Medicine-Cardiology and Cardiovascular Medicine
CiteScore
2.20
自引率
0.00%
发文量
91
审稿时长
61 days
期刊介绍: Indian Pacing and Electrophysiology Journal is a peer reviewed online journal devoted to cardiac pacing and electrophysiology. Editorial Advisory Board includes eminent personalities in the field of cardiac pacing and electrophysiology from Asia, Australia, Europe and North America.
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