正向解无创性心律失常映射:VMAP 研究。
Forward-Solution Noninvasive Computational Arrhythmia Mapping: The VMAP Study.
机构信息
Department of Medicine (D.E.K., G.H., K.S., K.S.H., J.C.H., F.R., G.K.F., A.D.M., F.T.H.), University of California San Diego, La Jolla.
Veterans Affairs San Diego Healthcare System (D.E.K., G.H., K.S.H., F.T.H.).
出版信息
Circ Arrhythm Electrophysiol. 2022 Sep;15(9):e010857. doi: 10.1161/CIRCEP.122.010857. Epub 2022 Sep 7.
BACKGROUND
The accuracy of noninvasive arrhythmia source localization using a forward-solution computational mapping system has not yet been evaluated in blinded, multicenter analysis. This study tested the hypothesis that a computational mapping system incorporating a comprehensive arrhythmia simulation library would provide accurate localization of the site-of-origin for atrial and ventricular arrhythmias and pacing using 12-lead ECG data when compared with the gold standard of invasive electrophysiology study and ablation.
METHODS
The VMAP study (Vectorcardiographic Mapping of Arrhythmogenic Probability) was a blinded, multicenter evaluation with final data analysis performed by an independent core laboratory. Eligible episodes included atrial and ventricular: tachycardia, fibrillation, pacing, premature atrial and ventricular complexes, and orthodromic atrioventricular reentrant tachycardia. Mapping system results were compared with the gold standard site of successful ablation or pacing during electrophysiology study and ablation. Mapping time was assessed from time-stamped logs. Prespecified performance goals were used for statistical comparisons.
RESULTS
A total of 255 episodes from 225 patients were enrolled from 4 centers. Regional accuracy for ventricular tachycardia and premature ventricular complexes in patients without significant structural heart disease (n=75, primary end point) was 98.7% (95% CI, 96.0%-100%; <0.001 to reject predefined H <0.80). Regional accuracy for all episodes (secondary end point 1) was 96.9% (95% CI, 94.7%-99.0%; <0.001 to reject predefined H <0.75). Accuracy for the exact or neighboring segment for all episodes (secondary end point 2) was 97.3% (95% CI, 95.2%-99.3%; <0.001 to reject predefined H <0.70). Median spatial accuracy was 15 mm (n=255, interquartile range, 7-25 mm). The mapping process was completed in a median of 0.8 minutes (interquartile range, 0.4-1.4 minutes).
CONCLUSIONS
Computational ECG mapping using a forward-solution approach exceeded prespecified accuracy goals for arrhythmia and pacing localization. Spatial accuracy analysis demonstrated clinically actionable results. This rapid, noninvasive mapping technology may facilitate catheter-based and noninvasive targeted arrhythmia therapies.
REGISTRATION
URL: https://www.
CLINICALTRIALS
gov; Unique identifier: NCT04559061.
背景
使用正向解决方案计算映射系统进行无创性心律失常源定位的准确性尚未在盲法、多中心分析中进行评估。本研究检验了一个假设,即包含全面心律失常模拟库的计算映射系统在与侵入性电生理研究和消融的金标准相比时,将提供对房性和室性心律失常以及起搏起源部位的准确定位。使用 12 导联心电图数据。
方法
VMAP 研究(心律失常可能性的向量心电图映射)是一项盲法、多中心评估,最终数据分析由独立核心实验室进行。合格的发作包括房性和室性:心动过速、颤动、起搏、过早的房性和室性复合波以及顺向型房室折返性心动过速。映射系统的结果与电生理研究和消融期间成功消融或起搏的金标准部位进行了比较。映射时间是根据时间戳日志进行评估的。使用预设的性能目标进行统计比较。
结果
共有来自 4 个中心的 225 名患者的 255 个发作被纳入。在没有明显结构性心脏病的患者中(n=75,主要终点),对室性心动过速和室性期前收缩的区域性准确性为 98.7%(95%CI,96.0%-100%;<0.001,拒绝预定的 H <0.80)。所有发作的区域性准确性(次要终点 1)为 96.9%(95%CI,94.7%-99.0%;<0.001,拒绝预定的 H <0.75)。所有发作的精确或相邻节段的准确性(次要终点 2)为 97.3%(95%CI,95.2%-99.3%;<0.001,拒绝预定的 H <0.70)。中位数空间准确性为 15 毫米(n=255,四分位距,7-25 毫米)。映射过程的中位时间为 0.8 分钟(四分位距,0.4-1.4 分钟)。
结论
使用正向解决方案的计算心电图映射在心律失常和起搏定位方面超过了预定的准确性目标。空间准确性分析显示出具有临床可操作性的结果。这种快速、无创的映射技术可能有助于基于导管的和无创的靶向心律失常治疗。
注册
网址:https://www.
临床试验
gov;独特标识符:NCT04559061。
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