Grid Mapping Catheter for Ventricular Tachycardia Ablation.

K. Okubo, A. Frontera, C. Bisceglia, G. Paglino, A. Radinovic, L. Foppoli, F. Calore, P. Della Bella
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引用次数: 37

Abstract

BACKGROUND A new grid mapping catheter (GMC)-allowing for bipolar recordings of the electrograms in each orthogonal direction-became available. The aim of the current study is to evaluate the utility of the GMC in creating substrate and ventricular tachycardia (VT) activation maps during VT ablation procedures. METHODS From December 2017 to July 2018, 41 consecutive patients undergoing a VT ablation procedure using a GMC were studied. During the substrate mapping, 3 different maps were created using the 3 GMC bipolar configurations (along the spline, across the spline, HD wave solution); the low voltage area and late potential areas were compared. In case of inducible VTs, the GMC was used to create the VT activation maps focusing on the diastolic interval. The relation between diastolic activities during VT and substrate abnormality during sinus rhythm was also investigated. RESULTS The median low-voltage area drawn by the HD wave configuration was 28.9 cm2, 13% and 15% smaller than the low-voltage areas identified by the along and across configuration, respectively (33.1 and 33.9 cm2; P<0.0001). The late potential areas obtained with the 3 GMC configuration did not differ (P>0.05). VT activation mappings using the GMC were performed in 40 VTs, visualizing the full diastolic pathway in 22 (55%) of them. While the latest late potential areas were included in VT diastolic pathway in 17 VTs, the other 6 VTs showed mismatching of them. Identifying the full diastolic pathway led to a higher ongoing VT termination rate during the ablation than in case of partial recordings (88% versus 45%; P=0.03); furthermore, in the former situation, the noninducibility of the targeted VTs was achieved in all cases. CONCLUSIONS The GMC is a useful tool for performing substrate and VT activation mappings during the VT ablation procedure, precisely identifying the low-voltage areas and quickly visualizing the diastolic pathways.
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网格定位导管在室性心动过速消融中的应用。
一种新的网格映射导管(GMC)-允许在每个正交方向上记录双极电位-成为可能。当前研究的目的是评估在室性心动过速消融过程中GMC在创建基底和室性心动过速(VT)激活图中的效用。方法:从2017年12月至2018年7月,研究了41例连续使用GMC进行VT消融手术的患者。在基板映射过程中,使用3种GMC双极配置(沿样条,穿过样条,高清波溶液)创建了3种不同的图;比较了低电压区和晚电位区。在诱导型室性心动过速的情况下,GMC用于创建聚焦于舒张期间期的室性心动过速激活图。研究了室性心动过速时的舒张活动与窦性心律时底物异常的关系。结果高清波构型绘制的中位低压面积为28.9 cm2,比沿波和横波构型绘制的中位低压面积分别小13%和15%(33.1和33.9 cm2;P0.05)。使用GMC对40个VT进行了VT激活映射,其中22个(55%)显示了完整的舒张通路。17个室室舒张路径包含最新晚电位区,其余6个室室不匹配。与部分记录相比,识别全舒张通路导致消融期间持续的VT终止率更高(88%对45%;P = 0.03);此外,在前一种情况下,目标VTs的不可诱导性在所有情况下都实现了。结论:在室速消融过程中,GMC是一种有用的基底和室速激活映射工具,可以精确识别低压区域并快速显示舒张通路。
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