Brugada综合征患者的ST段抬高和碎裂电图源自相同结构异常的右心室流出道心外膜下区域,但机制不同。
ST-Segment Elevation and Fractionated Electrograms in Brugada Syndrome Patients Arise From the Same Structurally Abnormal Subepicardial RVOT Area but Have a Different Mechanism.
作者信息
Ten Sande Judith N, Coronel Ruben, Conrath Chantal E, Driessen Antoine H G, de Groot Joris R, Tan Hanno L, Nademanee Koonlawee, Wilde Arthur A M, de Bakker Jacques M T, van Dessel Pascal F H M
机构信息
From the Heart Center, Department of Clinical and Experimental Cardiology, Academic Medical Center, University of Amsterdam, Amsterdam (J.N.t.S., R.C., C.E.C., A.H.G.D., J.R.d.G., H.L.T., A.A.M.W., J.M.T.d.B., P.F.H.M.v.D.); Interuniversity Cardiology Institute of the Netherlands, Utrecht, the Netherlands (J.N.t.S., J.M.T.d.B.); L'Institut de RYthmologie et de modélisation Cardiaque (LIRYC), Université Bordeaux Segalen, Bordeaux, France (R.C.); and Pacific Rim Electrophysiology Research Institute, Los Angeles, CA (K.N.).
出版信息
Circ Arrhythm Electrophysiol. 2015 Dec;8(6):1382-92. doi: 10.1161/CIRCEP.115.003366. Epub 2015 Oct 19.
BACKGROUND
Brugada syndrome (BrS) is characterized by a typical ECG pattern. We aimed to determine the pathophysiologic basis of the ST-segment in the BrS-ECG with data from various epicardial and endocardial right ventricular activation mapping procedures in 6 BrS patients and in 5 non-BrS controls.
METHODS AND RESULTS
In 7 patients (2 BrS and 5 controls) with atrial fibrillation, an epicardial 8×6 electrode grid (interelectrode distance 1 mm) was placed epicardially on the right ventricular outflow tract (RVOT) before video-assisted thoracoscopic surgical pulmonary vein isolation. In 2 other BrS patients, endocardial, epicardial RV (CARTO), and body surface mapping was performed. In 2 additional BrS patients, we performed decremental preexcitation of the RVOT before endocardial RV mapping. During video-assisted thoracoscopic surgical pulmonary vein isolation and CARTO mapping, BrS patients (n=4) showed greater activation delay and more fractionated electrograms in the RVOT region than controls. Ajmaline administration increased the region with fractionated electrograms, as well as ST-segment elevation. Preexcitation of the RVOT (n=2) resulted in ECGs that supported the current-to-load mismatch hypothesis for ST-segment elevation. Body surface mapping showed that the area with ST-segment elevation anatomically correlated with the area of fractionated electrograms and activation delay at the RVOT epicardium.
CONCLUSIONS
ST-segment elevation and epicardial fractionation/conduction delay in BrS patients are most likely related to the same structural subepicardial abnormalities, but the mechanism is different. ST-segment elevation may be caused by current-to-load mismatch, whereas fractionated electrograms and conduction delay are expected to be caused by discontinuous conduction in the same area with abnormal myocardium.
背景
Brugada综合征(BrS)的特征是具有典型的心电图模式。我们旨在通过6例BrS患者和5例非BrS对照者的各种心外膜和心内膜右心室激动标测程序所获得的数据,确定BrS心电图中ST段的病理生理基础。
方法和结果
在7例(2例BrS患者和5例对照者)房颤患者中,在电视辅助胸腔镜手术肺静脉隔离术前,将一个心外膜8×6电极格栅(电极间距1mm)置于右心室流出道(RVOT)的心外膜上。另外2例BrS患者进行了心内膜、心外膜右心室(CARTO)和体表标测。还有2例BrS患者在进行心内膜右心室标测前对RVOT进行了递减性预激。在电视辅助胸腔镜手术肺静脉隔离和CARTO标测过程中,BrS患者(n = 4)在RVOT区域比对照者表现出更大程度的激动延迟和更多的碎裂电图。静脉注射阿义马林增加了存在碎裂电图的区域以及ST段抬高。RVOT预激(n = 2)导致的心电图支持了ST段抬高的电流-负荷不匹配假说。体表标测显示,ST段抬高区域在解剖学上与RVOT心外膜上的碎裂电图区域和激动延迟区域相关。
结论
BrS患者的ST段抬高和心外膜碎裂/传导延迟很可能与相同的心外膜下结构异常有关,但机制不同。ST段抬高可能由电流-负荷不匹配引起,而碎裂电图和传导延迟预计是由心肌异常的同一区域的不连续传导所致。
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