利用数字双胞胎评估纤维基质的致心律失常倾向,为基于机制的心房颤动消融策略提供依据

IF 9.4 Q1 CARDIAC & CARDIOVASCULAR SYSTEMS
Kensuke Sakata, Ryan P. Bradley, Adityo Prakosa, Carolyna A. P. Yamamoto, Syed Yusuf Ali, Shane Loeffler, Brock M. Tice, Patrick M. Boyle, Eugene G. Kholmovski, Ritu Yadav, Sunil Kumar Sinha, Joseph E. Marine, Hugh Calkins, David D. Spragg, Natalia A. Trayanova
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引用次数: 0

摘要

心房颤动(房颤)是最常见的心律失常,可导致中风和心力衰竭。对于伴有纤维化增生的持续性房颤患者,标准的房颤治疗方法--肺静脉隔绝术--疗效不佳,需要重新进行手术,原因是对纤维化基质中的良好靶点了解不足。在此,我们介绍了一项前瞻性临床和个性化数字孪生研究,该研究描述了持续性房颤基底的致心律失常特性,并发现了具有转子吸引能力的位置。在这些基底中,有一部分需要消融才能使转子无法诱发,但其余的基底(37%)在消融另一个位置时会失去转子吸引能力。通过对数字孪生机制的深入了解,我们提出了消融目标,既能以最小的病变消除心律失常倾向,又能将先天性心动过速和房颤复发的风险降至最低。我们的研究结果为持续性房颤的适当基底消融目标提供了进一步的证据,为减轻患者房颤负担的有效策略打开了大门。Sakata 等人进行了一项前瞻性个性化机理计算(数字孪生)研究,重点研究了持续性房颤患者心房纤维化基底的致心律失常特性,并在此介绍了一种以机理为导向的优化消融新策略。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Assessing the arrhythmogenic propensity of fibrotic substrate using digital twins to inform a mechanisms-based atrial fibrillation ablation strategy

Assessing the arrhythmogenic propensity of fibrotic substrate using digital twins to inform a mechanisms-based atrial fibrillation ablation strategy
Atrial fibrillation (AF), the most common heart rhythm disorder, may cause stroke and heart failure. For patients with persistent AF with fibrosis proliferation, the standard AF treatment—pulmonary vein isolation—has poor outcomes, necessitating redo procedures, owing to insufficient understanding of what constitutes good targets in fibrotic substrates. Here we present a prospective clinical and personalized digital twin study that characterizes the arrhythmogenic properties of persistent AF substrates and uncovers locations possessing rotor-attracting capabilities. Among these, a portion needs to be ablated to render the substrate not inducible for rotors, but the rest (37%) lose rotor-attracting capabilities when another location is ablated. Leveraging digital twin mechanistic insights, we suggest ablation targets that eliminate arrhythmia propensity with minimum lesions while also minimizing the risk of iatrogenic tachycardia and AF recurrence. Our findings provide further evidence regarding the appropriate substrate ablation targets in persistent AF, opening the door for effective strategies to mitigate patients’ AF burden. Sakata et al. performed a prospective personalized mechanistic computational (digital twin) study focused on characterizing the arrhythmogenic properties of the atrial fibrotic substrate in patients with persistent atrial fibrillation, and they introduce here a novel mechanism-oriented strategy for optimal ablation.
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CiteScore
5.70
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