Emilio Osorio-Jaramillo, Luca Conci, Thomas Schlöglhofer, Iuliana Coti, Andreas Strassl, Christoph Schukro, Daniel Zimpfer, Marek P Ehrlich, Niv Ad
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引用次数: 0
Abstract
Objectives: Surgical ablation for treating atrial fibrillation (AF) is currently performed mostly without preoperative electrophysiological imaging. This study aimed to investigate the use of non-invasive surface mapping as a preoperative tool to explore potential mechanisms and patterns involved in the electrophysiology of persistent and long-standing persistent AF.
Methods: This prospective, observational study included cardiac surgery candidates without previous ablation. Bi-atrial epicardial activation sequences were obtained with electrocardiographic imaging and analysed in an independent core lab. Statistical analyses included hierarchical clustering, which quantified 3 clusters based on the number of drivers to identify specific characteristics.
Results: All 51 patients [14 (27%) persistent; 37 (73%) long-standing persistent; AF, duration 42 months (interquartile range 14-120)] had bi-atrial electrophysiological abnormalities. Most rotors were harbored in the upper half of the right atrium, involved in almost all patients (50/51, 98%), followed by the pulmonary vein areas and left-atrial backwall (48/51, 94%). Longer AF duration showed no association towards fewer rotor and focal activity (r = -0.08, P = 0.42; r = -0.06, P = 0.56, respectively). A significant correlation existed between larger left atrial (LA) size and fewer rotors (r = -0.33, P < 0.001), but not focal activity (r = 0.01, P = 0.92). The clusters differed in AF duration and LA size, and in their number of rotor and focal activities (P = 0.005, P < 0.001, respectively).
Conclusions: The underlying electrophysiological mechanism was identified in all patients and consistently showed bi-atrial involvement irrespective of AF duration, LA size, or concomitant heart disease. In larger left atria and longer AF duration, the observed lower number of rotors might be related to atrial tissue fibrosis and lower amplitudes. The results demonstrate the potential role of preoperative mapping to improve procedural planning and our understanding of patients' electrophysiology.
目的:心房颤动的外科消融治疗目前大多在术前不进行电生理成像。本研究旨在探讨使用无创表面测绘作为术前工具,探讨持续性和长期持续性心房颤动的潜在电生理机制和模式。方法:这项前瞻性观察性研究纳入了无消融史的心脏手术候选人。通过心电图成像获得双心房心外膜激活序列,并在独立的核心实验室进行分析。统计分析包括分层聚类,它根据司机的数量量化了三个聚类,以确定具体的特征。结果:51例患者[14例(27%)持续;37例(73%)长期执着;心房颤动,病程42个月(IQR 14-120)],双房电生理异常。大多数旋转体位于右心房上半部分,几乎所有患者(50/51,98%)均有发生,其次是肺静脉区和左心房后壁(48/51,94%)。房颤持续时间越长,旋翼和病灶活动越少与之无关(r=-0.08, p = 0.42; r=-0.06, p = 0.56)。结论:所有患者的潜在电生理机制均被确定,且与房颤持续时间、左心房大小或合并心脏病无关,均显示双房受累。在左心房较大、房颤持续时间较长的情况下,旋翼数较低可能与心房组织纤维化及振幅较低有关。结果表明,术前绘图在改善手术计划和我们对患者电生理的理解方面具有潜在的作用。
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