临床建立的无创心电图成像系统在完整猪模型中检测病灶激活的空间准确性。

S. Hohmann, M. Rettmann, H. Konishi, Anna Borenstein, Songyun Wang, A. Suzuki, G. Michalak, K. Monahan, K. D. Parker, L. K. Newman, D. Packer
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引用次数: 12

摘要

无创心电图成像(ECGi)在临床上用于消融前的心律失常。尽管它的临床应用,验证数据关于系统的准确性识别心律失常灶是有限的。方法对9头猪进行了闭胸放置心内膜基准标记物、计算机断层扫描,并在所有心室进行了ECGi采集。从双翼透视重建起搏位置,并使用基准记录到计算机断层扫描。盲法研究者根据ECGi数据预测起搏位置,并计算到起搏导管真实尖端位置的距离。结果9头猪共测得109个心内膜位置和9个心外膜位置。ECGi对85%心房部位和92%心室部位的房源预测正确。侧位预测在正确房内的概率高于间隔位(97%对79%,P=0.01)。真实起搏位置与预测起搏位置之间的绝对空间距离为20.7 (13.8-25.6)mm(中位数和[1 - 3]四分位数)。心腔间距离无显著差异。结论在绝大多数情况下,ECGi系统能够正确识别病灶激活的起始腔室。考虑到这些误差估计,以足够的精度确定真正的原产地是可能的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Spatial Accuracy of a Clinically Established Noninvasive Electrocardiographic Imaging System for the Detection of Focal Activation in an Intact Porcine Model.
BACKGROUND Noninvasive electrocardiographic imaging (ECGi) is used clinically to map arrhythmias before ablation. Despite its clinical use, validation data regarding the accuracy of the system for the identification of arrhythmia foci is limited. METHODS Nine pigs underwent closed-chest placement of endocardial fiducial markers, computed tomography, and pacing in all cardiac chambers with ECGi acquisition. Pacing location was reconstructed from biplane fluoroscopy and registered to the computed tomography using the fiducials. A blinded investigator predicted the pacing location from the ECGi data, and the distance to the true pacing catheter tip location was calculated. RESULTS A total of 109 endocardial and 9 epicardial locations were paced in 9 pigs. ECGi predicted the correct chamber of origin in 85% of atrial and 92% of ventricular sites. Lateral locations were predicted in the correct chamber more often than septal locations (97% versus 79%, P=0.01). Absolute distances in space between the true and predicted pacing locations were 20.7 (13.8-25.6) mm (median and [first-third] quartile). Distances were not significantly different across cardiac chambers. CONCLUSIONS The ECGi system is able to correctly identify the chamber of origin for focal activation in the vast majority of cases. Determination of the true site of origin is possible with sufficient accuracy with consideration of these error estimates.
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