Mechanisms by Which Ranolazine Terminates Paroxysmal but Not Persistent Atrial Fibrillation.

Circulation: Arrhythmia and Electrophysiology Pub Date : 2019-10-01 DOI:10.1161/CIRCEP.117.005557

R. Ramirez, Y. Takemoto, R. Martins, D. Filgueiras-Rama, S. Ennis, S. Mironov, Sandesh Bhushal, M. Deo, S. Rajamani, O. Berenfeld, L. Belardinelli, J. Jalife, S. Pandit

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引用次数: 7

Abstract

BACKGROUND Ranolazine inhibits Na+ current (INa), but whether it can convert atrial fibrillation (AF) to sinus rhythm remains unclear. We investigated antiarrhythmic mechanisms of ranolazine in sheep models of paroxysmal (PxAF) and persistent AF (PsAF). METHODS PxAF was maintained during acute stretch (N=8), and PsAF was induced by long-term atrial tachypacing (N=9). Isolated, Langendorff-perfused sheep hearts were optically mapped. RESULTS In PxAF ranolazine (10 μmol/L) reduced dominant frequency from 8.3±0.4 to 6.2±0.5 Hz (P<0.01) before converting to sinus rhythm, decreased singularity point density from 0.070±0.007 to 0.039±0.005 cm-2 s-1 (P<0.001) in left atrial epicardium (LAepi), and prolonged AF cycle length (AFCL); rotor duration, tip trajectory, and variance of AFCL were unaltered. In PsAF, ranolazine reduced dominant frequency (8.3±0.5 to 6.5±0.4 Hz; P<0.01), prolonged AFCL, increased the variance of AFCL, had no effect on singularity point density (0.048±0.011 to 0.042±0.016 cm-2 s-1; P=ns) and failed to convert AF to sinus rhythm. Doubling the ranolazine concentration (20 μmol/L) or supplementing with dofetilide (1 μmol/L) failed to convert PsAF to sinus rhythm. In computer simulations of rotors, reducing INa decreased dominant frequency, increased tip meandering and produced vortex shedding on wave interaction with unexcitable regions. CONCLUSIONS PxAF and PsAF respond differently to ranolazine. Cardioversion in the former can be attributed partly to decreased dominant frequency and singularity point density, and prolongation of AFCL. In the latter, increased dispersion of AFCL and likely vortex shedding contributes to rotor formation, compensating for any rotor loss, and may underlie the inefficacy of ranolazine to terminate PsAF.

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雷诺嗪终止阵发性而非持续性心房颤动的机制。

地拉唑嗪抑制Na+电流(INa)，但它是否能将心房颤动(AF)转化为窦性心律尚不清楚。我们研究了雷诺嗪在绵羊阵发性(PxAF)和持续性房颤(PsAF)模型中的抗心律失常机制。方法急性伸展期维持spxaf (N=8)，长期心房心动过速诱导PsAF (N=9)。分离的，兰根多夫灌注的羊心脏被光学定位。结果PxAF ranolazine (10 μmol/L)使转化为窦性心律前的优势频率由8.3±0.4 Hz降至6.2±0.5 Hz (P<0.01)，使左房心外膜(LAepi)的奇异点密度由0.070±0.007降至0.039±0.005 cm-2 s-1 (P<0.001)，延长AF周期长度(AFCL);旋翼持续时间、叶尖轨迹和AFCL方差不变。在PsAF中，雷诺嗪降低了主导频率(8.3±0.5至6.5±0.4 Hz);P<0.01)，延长AFCL，增加AFCL方差，对奇点密度无影响(0.048±0.011 ~ 0.042±0.016 cm-2 s-1;P=ns)，未能将房颤转化为窦性心律。将雷诺嗪浓度加倍(20 μmol/L)或补充多非利特(1 μmol/L)均不能将PsAF转化为窦性心律。在转子的计算机模拟中，降低INa降低了主导频率，增加了叶尖弯曲，并在波与不可激区相互作用时产生了涡脱落。结论spxaf和PsAF对雷诺嗪的反应不同。前者心律失常的部分原因是主频和奇点密度降低，AFCL延长。在后一种情况下，AFCL弥散度的增加和可能的旋涡脱落有助于转子形成，补偿任何转子损失，并可能导致雷诺嗪无法终止PsAF。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Circulation: Arrhythmia and Electrophysiology

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