Zhou X, Smith W M, Ideker R E
Department of Medicine, University of Alabama at Birmingham 35294-0019, USA.
J Cardiovasc Electrophysiol. 1997 Jul;8(7):779-89. doi: 10.1111/j.1540-8167.1997.tb00836.x.
This study investigated if action potentials can be prevented by electrical field stimuli of long duration.
The transmembrane potential was recorded by a double-barrel micro-electrode during field stimulation given across a papillary muscle from 10 guinea pigs. After 10 stimuli (S) with a 200-msec S-S interval, a 400-msec square wave shock was given just before or after the end of the effective refractory period following the 10th stimulus through electrodes 1 cm on either side of the papillary muscles. Another two stimuli (S' and S") having the same 200-msec S-S interval were given during the shock pulse to test if the action potentials induced by these two stimuli could be prevented by the shock. The shock strength was increased until the shock field prevented the action potentials induced by the S' and S" stimuli. The resting membrane potential was -85.5 +/- 2.9 mV. For shocks causing depolarization at the recording site, the field strength required to prevent S'- and S"-induced action potentials was 1.5 +/- 0.4 V/cm, which depolarized the transmembrane potential to -55.3 +/- 8.9 mV and -58.1 +/- 7.2 mV from the resting membrane potential at the time of the S' and S" stimuli, respectively. The strength of shocks causing hyperpolarization required to prevent S'- and S" -induced action potentials was 5.0 +/- 0.8 V/cm, which hyperpolarized the transmembrane potential to -105 +/- 6.5 mV and -115.6 +/- 6.9 mV from the resting membrane potential at the time of the S' and S" stimuli, respectively.
Both depolarization and hyperpolarization caused by an electrical field can prevent action potentials.
本研究调查了长时间电场刺激是否能阻止动作电位的产生。
使用双管微电极记录10只豚鼠乳头肌在电场刺激期间的跨膜电位。在以200毫秒的刺激间隔施加10次刺激(S)后,在第10次刺激后的有效不应期结束前或结束后,通过位于乳头肌两侧1厘米处的电极施加一个400毫秒的方波电击。在电击脉冲期间再施加另外两次具有相同200毫秒刺激间隔的刺激(S'和S"),以测试这两次刺激诱发的动作电位是否能被电击阻止。逐渐增加电击强度,直到电击电场阻止由S'和S"刺激诱发的动作电位。静息膜电位为-85.5±2.9毫伏。对于在记录部位引起去极化的电击,阻止S'和S"诱发动作电位所需的场强为1.5±0.4伏/厘米,在S'和S"刺激时,这使得跨膜电位分别从静息膜电位去极化至-55.3±8.9毫伏和-58.1±7.2毫伏。阻止S'和S"诱发动作电位所需的引起超极化的电击强度为5.0±0.8伏/厘米,在S'和S"刺激时,这使得跨膜电位分别从静息膜电位超极化至-105±6.5毫伏和-115.6±6.9毫伏。
电场引起的去极化和超极化均可阻止动作电位的产生。
