A novel peak frequency mapping algorithm for the precise localization of accessory pathways in the middle cardiac vein: a case report.

IF 0.8 Q4 CARDIAC & CARDIOVASCULAR SYSTEMS

European Heart Journal: Case Reports Pub Date : 2025-04-09 eCollection Date: 2025-04-01 DOI:10.1093/ehjcr/ytaf181

Gen Fujiwara, Yoshiaki Mizutani, Satoshi Yanagisawa, Yasuya Inden, Toyoaki Murohara

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Abstract

Background: Advancements in three-dimensional mapping systems have enhanced the precise accessory pathway (AP) localization and conduction properties. However, accurately identifying the earliest atrial or ventricular activation sites remains challenging, particularly in cases with multiple insertions or epicardial connections.

Case summary: A 24-year-old woman with palpitations and a manifest Wolff-Parkinson-White syndrome Type A underwent catheter ablation. Local activation time mapping revealed extensive conduction in the posterior mitral annulus, with a peak frequency (PF) of 291 Hz at the earliest ventricular and earliest atrial activation sites on the endocardium in the omnipolar technology near field (OTNF) mapping. The coronary sinus and middle cardiac vein were additionally mapped using an ablation mapping catheter and a 1.6-Fr electrode catheter. Emphasis mapping identified the Kent bundle location during right ventricular pacing using local activation time and PF mapping. A narrower region of atrial insertion at the entrance of the middle cardiac vein was revealed, with a PF of 645 Hz. The AP connection successfully disappeared 8 s after ablation to the entrance of the middle cardiac vein. At the 3-month follow-up, the patient showed no recurrence of delta waves on the electrocardiogram or related symptoms.

Discussion: The novel OTNF concept further enhances this function by differentiating far-field potentials based on annotated PFs. The use of PF values with novel OTNF mapping proved valuable in identifying optimal target sites for the ablation of APs. The combination of OTNF mapping and advanced ablation catheters may enable the precise targeting of specific AP sites.

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一种新的峰值频率映射算法用于心脏中静脉副通路的精确定位：一个病例报告。

背景：三维绘图系统的进步提高了辅助通路（AP）的精确定位和传导特性。然而，准确识别最早的心房或心室激活位点仍然具有挑战性，特别是在有多个插入或心外膜连接的情况下。病例总结：一名24岁女性，心悸和明显的沃尔夫-帕金森-怀特综合征A型行导管消融术。局部激活时间图显示二尖瓣后环有广泛的传导，全极技术近场图显示在心内膜最早的心室和最早的心房激活位点有291hz的峰值频率（PF）。冠状窦和心中静脉另外使用消融定位导管和1.6-Fr电极导管进行定位。重点映射通过局部激活时间和PF映射确定右心室起搏时肯特束的位置。在心中静脉入口可见心房止点狭窄区域，PF为645 Hz。消融后8 s至心中静脉入口的AP连接成功消失。在3个月的随访中，患者的心电图上没有出现delta波复发或相关症状。讨论：新的otf概念进一步增强了这一功能，基于带注释的PFs来区分远场电位。使用PF值与新的OTNF作图在确定ap消融的最佳靶点方面被证明是有价值的。结合ontnf定位和先进的消融导管可以精确定位特定的AP部位。

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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