Voroshilovsky O, Qu Z, Lee M H, Ohara T, Fishbein G A, Huang H L, Swerdlow C D, Lin S F, Garfinkel A, Weiss J N, Karagueuzian H S, Chen P S
Division of Cardiology, Department of Medicine, Cedars-Sinai Medical Center, UCLA School of Medicine, Los Angeles, CA 90048, USA.
Circulation. 2000 Sep 26;102(13):1569-74. doi: 10.1161/01.cir.102.13.1569.
The mechanisms by which 60-Hz alternating current (AC) can induce ventricular fibrillation (VF) are unknown.
We studied 7 isolated perfused swine right ventricles in vitro. The action potential duration restitution curve was determined. Optical mapping techniques were used to determine the patterns of activation on the epicardium during 5-second 60-Hz AC stimulation (10 to 999 microA). AC captured the right ventricles at 100+/-65 microA, which is significantly lower than the direct current pacing threshold (0.77+/-0.45 mA, P:<0.05). AC induced ventricular tachycardia or VF at 477+/-266 microA, when the stimulated responses to AC had (1) short activation CLs (128+/-14 ms), (2) short diastolic intervals (16+/-9 ms), and (3) short diastolic intervals associated with a steep action potential duration restitution curve. Optical mapping studies showed that during rapid ventricular stimulation by AC, a wave front might encounter the refractory tail of an earlier wave front, resulting in the formation of a wave break and VF. Computer simulations reproduced these results.
AC at strengths less than the regular pacing threshold can capture the ventricle at fast rates. Accidental AC leak to the ventricles could precipitate VF and sudden death if AC results in a fast ventricular rate coupled with a steep restitution curve and a nonuniform recovery of excitability of the myocardium.
60赫兹交流电(AC)诱发心室颤动(VF)的机制尚不清楚。
我们在体外研究了7个离体灌注的猪右心室。测定了动作电位时程恢复曲线。使用光学标测技术确定在5秒60赫兹交流电刺激(10至999微安)期间心外膜的激活模式。交流电在100±65微安时捕获右心室,这显著低于直流电起搏阈值(0.77±0.45毫安,P<0.05)。当对交流电的刺激反应具有(1)短激活周期长度(128±14毫秒)、(2)短舒张间期(16±9毫秒)以及(3)与陡峭的动作电位时程恢复曲线相关的短舒张间期时,交流电在477±266微安时诱发室性心动过速或心室颤动。光学标测研究表明,在交流电快速刺激心室期间,一个波前可能会遇到更早波前的不应期尾部,导致波裂形成和心室颤动。计算机模拟重现了这些结果。
强度低于常规起搏阈值的交流电能够以快速频率捕获心室。如果交流电导致快速心室率并伴有陡峭的恢复曲线以及心肌兴奋性恢复不均匀,意外的交流电泄漏到心室可能会引发心室颤动和猝死。
