Sohn Kwanghyun, Lv Wener, Lee Kichang, Galea Anna, Hirschman Gordon, Barrett Conor, Cohen Richard J, Armoundas Antonis A
Cardiovascular Research Center, Massachusetts General Hospital, Boston, Massachusetts.
Pacing Clin Electrophysiol. 2014 Aug;37(8):1038-50. doi: 10.1111/pace.12380. Epub 2014 Mar 20.
We have introduced a method to guide radiofrequency catheter ablation (RCA) procedures that estimates the location of a catheter tip used to pace the ventricles and the target site for ablation using the single equivalent moving dipole (SEMD).
To investigate the accuracy of this method in resolving epicardial and endocardial electrical sources.
Two electrode arrays, each of nine pacing electrodes at known distances from each other, sutured on the left- and right-ventricular (LV and RV) epicardial surfaces of swine, were used to pace the heart at multiple rates, while body surface potentials from 64 sites were recorded and used to estimate the SEMD location. A similar approach was followed for pacing from catheters in the LV and RV.
The overall (RV & LV) error in estimating the interelectrode distance of adjacent epicardial electrodes was 0.38 ± 0.45 cm. The overall endocardial (RV & LV) interelectrode distance error, was 0.44 ± 0.26 cm. Heart rate did not significantly affect the error of the estimated SEMD location (P > 0.05). The guiding process error became progressively smaller as the SEMD approached an epicardial target site and close to the target, the overall absolute error was ∼ 0.28 cm. The estimated epicardial SEMD locations preserved their topology in image space with respect to their corresponding physical location of the epicardial electrodes.
The proposed algorithm suggests one can efficiently and accurately resolve epicardial electrical sources without the need of an imaging modality. In addition, the error in resolving these sources is sufficient to guide RCA procedures.
我们引入了一种指导射频导管消融(RCA)手术的方法,该方法使用单等效移动偶极子(SEMD)来估计用于心室起搏的导管尖端位置以及消融的目标部位。
研究该方法在分辨心外膜和心内膜电信号源方面的准确性。
将两个电极阵列,每个阵列有九个彼此距离已知的起搏电极,缝合在猪的左心室和右心室(LV和RV)心外膜表面,以多种频率对心脏进行起搏,同时记录64个部位的体表电位并用于估计SEMD位置。对于从LV和RV中的导管进行起搏,采用了类似的方法。
估计相邻心外膜电极的电极间距时,总体(RV和LV)误差为0.38±0.45厘米。心内膜(RV和LV)电极间距的总体误差为0.44±0.26厘米。心率对估计的SEMD位置误差没有显著影响(P>0.05)。随着SEMD接近心外膜目标部位,引导过程误差逐渐减小,在接近目标时,总体绝对误差约为0.28厘米。估计的心外膜SEMD位置在图像空间中相对于心外膜电极的相应物理位置保持其拓扑结构。
所提出的算法表明,无需成像方式即可高效、准确地分辨心外膜电信号源。此外,分辨这些信号源的误差足以指导RCA手术。
