Peak frequency can be effectively used to characterize scar in atrial fibrillation

IF 2.5 Q2 CARDIAC & CARDIOVASCULAR SYSTEMS

Heart Rhythm O2 Pub Date : 2025-04-01 DOI:10.1016/j.hroo.2024.12.011

Sayed Al-Aidarous MRCP, BSc , Caterina Vidal Horrach BSc , Caroline Roney MA PhD , Charles Butcher MRCP, BSc, PhD , Ross J. Hunter FESC, PhD , Shohreh Honarbakhsh MRCP, BSc, PhD

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Abstract

Background

Characterizing atrial fibrillation (AF) substrate can guide ablation strategies.

Objective

A novel parameter, peak frequency (PF), was evaluated in its ability to characterize the substrate in AF.

Methods

Patients undergoing persistent AF ablation were included. Patients had omnipolar voltage (OV) and PF maps in AF and bipolar voltage (BV) maps in sinus rhythm (SR) at pacing intervals of 600 and 250 ms. PF was evaluated at sites of fixed remodeling (low voltage zones [LVZs] across all maps), functional remodeling (LVZs in AF OV and SR BV 250 ms maps) and non-LVZs. PF was defined as the highest frequency detected in the electrogram.

Results

In 40 patients, the average voltage in AF OV maps differed significantly from that in SR BV 600 ms maps (0.49±0.76 mV in AF OV vs 1.12±0.97 mV SR BV 600 ms; P<.001) but not SR BV 250 ms maps (0.49±0.76 mV in AF OV vs 0.52±0.84 mV SR BV 250 ms; P=.10). PFs of ≥244 and ≤214 Hz were predictive of non-LVZs (odds ratio [OR] 3.91; P<.001) with an area under the curve (AUC) of 0.71 and of fixed remodeling (OR 17.67; P<.001) with an AUC of 0.90, respectively. A PF between 215 and 236 Hz was predictive of functional remodeling (OR 2.83; 95% confidence interval 2.71–2.95; P<.001) with an AUC of 0.76. A majority of LVZs identified only in AF OV maps exhibited PF compatible with that seen in non-LVZs, suggesting that PF analysis can pinpoint potential overestimations of LVZs.

Conclusion

PF can effectively discern between sites of fixed remodeling, functional remodeling, and potential overestimations of LVZs. PF may thereby aid in better characterization of the substrate in AF.

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峰值频率可有效地用于房颤瘢痕的表征

背景房颤（AF）基底的特征可以指导消融策略。目的评价一个新的参数峰频率（PF）对房颤基底的表征能力。方法纳入持续房颤消融的患者。在起搏间隔600和250 ms时，患者心房颤动有全极性电压（OV）和PF图，窦性心律（SR）有双极性电压（BV）图。在固定重构（所有图谱中的低压区[LVZs]）、功能重构（AF OV和SR BV 250 ms图谱中的LVZs）和非LVZs位点评估PF。PF被定义为电图中检测到的最高频率。结果40例患者AF OV图的平均电压与SR BV 600 ms图的平均电压差异显著（AF OV图0.49±0.76 mV vs SR BV 600 ms图1.12±0.97 mV）；p (p . lt;.001)，但SR BV 250 ms图不存在(AF OV为0.49±0.76 mV， SR BV 250 ms为0.52±0.84 mV；P = 10)。PFs≥244和≤214 Hz可预测非lvz(比值比[OR] 3.91；P<.001)，曲线下面积（AUC）为0.71，固定重构(OR 17.67；P<.001)， AUC为0.90。在215和236 Hz之间的PF预测功能重塑(OR 2.83；95%置信区间2.71 ~ 2.95；P<.001)， AUC为0.76。大多数仅在AF OV图谱中识别的LVZs与非LVZs的PF兼容，表明PF分析可以确定LVZs的潜在高估。结论pf能有效区分固定重构、功能重构和LVZs的潜在高估部位。因此，PF可以帮助更好地表征AF中的底物。

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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