心肌结构与局部电图的关系：心肌梗死后室性心动过速病理生理学和基于磁共振的无创性标测研究。

Myocardial structural associations with local electrograms: a study of postinfarct ventricular tachycardia pathophysiology and magnetic resonance-based noninvasive mapping.

机构信息

Department of Medicine/Cardiology, Johns Hopkins University School of Medicine, Baltimore, MD 21287, USA.

出版信息

Circ Arrhythm Electrophysiol. 2012 Dec;5(6):1081-90. doi: 10.1161/CIRCEP.112.970699. Epub 2012 Nov 13.

DOI:10.1161/CIRCEP.112.970699

PMID:23149263

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3581804/

Abstract

BACKGROUND

The association of scar on late gadolinium enhancement cardiac magnetic resonance (LGE-CMR) with local electrograms on electroanatomic mapping has been investigated. We aimed to quantify these associations to gain insights regarding LGE-CMR image characteristics of tissues and critical sites that support postinfarct ventricular tachycardia (VT).

METHODS AND RESULTS

LGE-CMR was performed in 23 patients with ischemic cardiomyopathy before VT ablation. Left ventricular wall thickness and postinfarct scar thickness were measured in each of 20 sectors per LGE-CMR short-axis plane. Electroanatomic mapping points were retrospectively registered to the corresponding LGE-CMR images. Multivariable regression analysis, clustered by patient, revealed significant associations among left ventricular wall thickness, postinfarct scar thickness, and intramural scar location on LGE-CMR, and local endocardial electrogram bipolar/unipolar voltage, duration, and deflections on electroanatomic mapping. Anteroposterior and septal/lateral scar localization was also associated with bipolar and unipolar voltage. Antiarrhythmic drug use was associated with electrogram duration. Critical sites of postinfarct VT were associated with >25% scar transmurality, and slow conduction sites with >40 ms stimulus-QRS time were associated with >75% scar transmurality.

CONCLUSIONS

Critical sites for maintenance of postinfarct VT are confined to areas with >25% scar transmurality. Our data provide insights into the structural substrates for delayed conduction and VT and may reduce procedural time devoted to substrate mapping, overcome limitations of invasive mapping because of sampling density, and enhance magnetic resonance-based ablation by feature extraction from complex images.

摘要

背景

已有研究调查了心脏磁共振晚期钆增强（LGE-CMR）瘢痕与电解剖标测上局部电图之间的关系。我们旨在量化这些关联，以深入了解支持心肌梗死后室性心动过速（VT）的 LGE-CMR 图像特征和关键部位。

方法和结果

在 VT 消融前，对 23 例缺血性心肌病患者进行了 LGE-CMR 检查。在每个 LGE-CMR 短轴平面的 20 个扇区中测量左心室壁厚度和梗死区瘢痕厚度。回顾性地将电解剖标测点与相应的 LGE-CMR 图像相关联。多变量回归分析，按患者聚类，显示 LGE-CMR 上左心室壁厚度、梗死区瘢痕厚度和心内膜局部双极/单极电图电压、持续时间和电解剖标测上的偏转角之间存在显著关联。前-后和间隔/侧壁瘢痕定位也与双极和单极电压相关。抗心律失常药物的使用与电活动持续时间相关。梗死区 VT 的关键部位与>25%的瘢痕透壁性相关，而>40 ms 刺激-QRS 时间的慢传导部位与>75%的瘢痕透壁性相关。

结论

维持梗死区 VT 的关键部位局限于>25%的瘢痕透壁性区域。我们的数据提供了关于延迟传导和 VT 的结构底物的深入了解，可能会减少用于底物标测的程序时间，克服由于采样密度导致的侵入性标测的局限性，并通过从复杂图像中提取特征来增强基于磁共振的消融。

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