Peak frequency analysis and functional substrate mapping to predict critical isthmus of atypical atrial tachycardia: Findings from a novel automated annotation algorithm to detect near-field signals.

IF 5.6 2区医学 Q1 CARDIAC & CARDIOVASCULAR SYSTEMS

Heart rhythm Pub Date : 2025-01-16 DOI:10.1016/j.hrthm.2025.01.009

Hikmet Yorgun, Cem Çöteli, Samuray Zekeriyeyev, Gül Sinem Kılıç, Kudret Aytemir

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引用次数: 0

Abstract

Background: Atypical atrial tachycardia (AT) is a commonly encountered rhythm disorder, especially in patients with underlying atrial scar. Peak frequency (PF) annotation of bipolar electrograms is a novel method that mainly aims to discriminate near-field and far-field signals.

Objective: This study aimed to evaluate the PF annotation of low-voltage zones and deceleration zones during sinus/paced rhythm and their role in predicting the critical isthmus (CI) and termination sites of atypical ATs.

Methods: We retrospectively included a total of 25 patients (mean age, 60 ± 12 years; 13 [52%] male) who underwent high-density mapping during both sinus/paced rhythm and AT. Omnipolar voltage and isochronal late activation maps of the left atrium were created on the basis of PF annotation. The CI of the AT was defined on the basis of both activation mapping and successful termination site/change in AT during ablation.

Results: A total of 30 ATs were mapped in the left atrium (22 [73.3%], localized reentry; 8 [26.7%], macroreentry). Median PF of the termination site was significantly higher compared with low-voltage zones alone (345 [209-530] Hz vs 235 (47-417] Hz; P < .001). PF had a significant predictive value for the termination site (area under the curve, 0.83; 95% confidence interval, 0.719-0.950; P < .001). When the cutoff value for PF was taken as 280 Hz, the sensitivity of the test was determined to be 80.0% and the specificity was determined to be 78.3%.

Conclusion: A PF annotation algorithm with a cutoff of 280 Hz accurately detects the CI of atypical ATs and accurately predicts deceleration zones during isochronal late activation mapping.

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峰频分析与功能底物定位预测非典型房性心动过速临界峡部一种新型近场信号自动标注算法的研究成果。

背景：不典型房性心动过速（AT）是一种常见的心律失常，特别是在有潜在心房瘢痕的患者中。双极电图峰频标注是一种新的方法，其主要目的是区分近场和远场信号。目的：探讨窦性/节奏性心律中低压区（LVZ）和减速区（DZ） PF注释的相关性及其对非典型ATs关键峡部（CI）和终止部位的预测作用。方法：我们回顾性纳入25例患者[平均年龄：60±12岁，性别：13例（52%）男性]，在窦性/节奏性心律和AT期间均行高密度测绘。在PF注释的基础上，建立了左心房的全极电压和等时晚激活图（ILAM）。AT的CI是基于激活映射和消融过程中AT的成功终止位点/改变来定义的。结果：LA共检测到30个ATs[22个（73.3%），局部再入；8 (26.7%), macroreentry]。与单独LVZ相比，终止部位的中位PF明显更高[345 Hz（209-530）比235 Hz(47-417)]。结论：截断为280 Hz的PF注释算法可以准确检测非典型ATs的CI并准确预测ILAM期间的DZs。

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

Heart rhythm 医学-心血管系统

CiteScore

10.50

自引率

5.50%

发文量

1465

审稿时长

24 days

期刊介绍： HeartRhythm, the official Journal of the Heart Rhythm Society and the Cardiac Electrophysiology Society, is a unique journal for fundamental discovery and clinical applicability. HeartRhythm integrates the entire cardiac electrophysiology (EP) community from basic and clinical academic researchers, private practitioners, engineers, allied professionals, industry, and trainees, all of whom are vital and interdependent members of our EP community. The Heart Rhythm Society is the international leader in science, education, and advocacy for cardiac arrhythmia professionals and patients, and the primary information resource on heart rhythm disorders. Its mission is to improve the care of patients by promoting research, education, and optimal health care policies and standards.