急性区域性左心房缺血可导致心房颤动时心房驱动加速。
Acute regional left atrial ischemia causes acceleration of atrial drivers during atrial fibrillation.
机构信息
Center for Arrhythmia Research, University of Michigan, Ann Arbor, Michigan 48109-2800, USA.
出版信息
Heart Rhythm. 2013 Jun;10(6):901-9. doi: 10.1016/j.hrthm.2013.02.023. Epub 2013 Feb 21.
BACKGROUND
The mechanisms by which acute left atrial ischemia (LAI) leads to atrial fibrillation (AF) initiation and perpetuation remain unclear.
OBJECTIVE
To investigate the electrophysiological mechanisms of AF perpetuation in the presence of regional atrial ischemia.
METHODS
LAI (90-minute ischemia) was obtained in isolated sheep hearts by selectively perfusing microspheres into the left anterior atrial artery. Two charge-coupled device cameras and several bipolar electrodes enabled recording from multiple atrial locations: with a dual-camera setup (protocol 1, n = 10, and protocol 1', n = 4, for biatrial or atrioventricular camera setups, respectively), in the presence of propranolol/atropine (1 μM) added to the perfusate after LAI (protocol 2, n = 3) and after a pretreatment with glibenclamide (10 μM; protocol 3, n = 4).
RESULTS
Spontaneous AF occurred in 41.2% (7 of 17) of the hearts that were in sinus rhythm before LAI. LAI caused action potential duration shortening in both the ischemic (IZ) and nonischemic (NIZ) zones by 21% ± 8% and 34% ± 13%, respectively (pacing, 5 Hz; P<.05 compared to baseline). Apparent impulse velocity was significantly reduced in the IZ but not in the NIZ (-65% ± 19% and 9% ± 18%; P = .001 and NS, respectively). During LAI-related AF, a significant NIZ maximal dominant frequency increase from 7.4 ± 2.5 to 14.0 ± 5.5 Hz (P<.05) was observed. Glibenclamide, an ATP-sensitive potassium current (IKATP) channel blocker, averted LAI-related maximal dominant frequency increase (NIZ: LAI vs glibenclamide 14.0 ± 5.5 Hz vs 5.9 ± 1.3 Hz; P<.05). An interplay between spontaneous focal discharges and rotors, locating at the IZ-NIZ border zone, maintained LAI-related AF.
CONCLUSIONS
LAI leads to an IKATP conductance-dependent action potential duration shortening and spontaneous AF maintained by both spontaneous focal discharges and reentrant circuits locating at the IZ border zone.
背景
急性左心房缺血(LAI)导致心房颤动(AF)发作和持续的机制仍不清楚。
目的
研究存在区域性心房缺血时 AF 持续的电生理机制。
方法
通过将微球选择性地灌注到左前心房动脉中来在分离的羊心中获得 LAI(90 分钟缺血)。两个电荷耦合器件相机和几个双极电极使我们能够从多个心房位置进行记录:使用双相机设置(方案 1,n = 10,方案 1',n = 4,分别用于双心房或房室相机设置),在 LAI 后加入到灌流液中的普萘洛尔/阿托品(1 μM)存在下(方案 2,n = 3)和用格列本脲预处理后(10 μM;方案 3,n = 4)。
结果
在 LAI 前处于窦性心律的 17 个心脏中,有 41.2%(7 个)自发发生 AF。LAI 导致缺血区(IZ)和非缺血区(NIZ)的动作电位持续时间缩短,分别缩短 21%±8%和 34%±13%(起搏,5 Hz;与基线相比,P<.05)。IZ 中的明显冲动速度明显降低,但 NIZ 中没有降低(分别为-65%±19%和 9%±18%;P =.001 和 NS)。在与 LAI 相关的 AF 期间,观察到 NIZ 最大主导频率从 7.4±2.5 显著增加到 14.0±5.5 Hz(P<.05)。格列本脲,一种 ATP 敏感性钾电流(IKATP)通道阻滞剂,避免了与 LAI 相关的最大主导频率增加(NIZ:LAI 与格列本脲 14.0±5.5 Hz 与 5.9±1.3 Hz;P<.05)。位于 IZ-NIZ 交界区的自发性灶性放电和转子之间的相互作用维持了与 LAI 相关的 AF。
结论
LAI 导致 IKATP 电导依赖性动作电位持续时间缩短,并通过位于 IZ 交界区的自发性灶性放电和折返环维持自发性 AF。
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