在受到长的强度不变的去极化电流时,多数神经元表现出明显的锋电位频率适应。
When presented with long depolarizing current pulse of constant amplitude, most of the neurons exhibited pronounced adaptation of spike frequency.
持续去极化电流刺激可诱发DRG神经元发生重复放电,其放电频率与去极化程度成正比。
Repetitive firing can be induced by a sustained depolarizing stimulation in DRG neurons with frequency proportional to the intensity of depolarization.
通过一阶段大电流充电和反向放电去极化,有效提高了充电速度。
Charging speed will be improved through depolarization by first-phase intense current charging and reverse discharging method.
大多数神经元在接受去极化刺激时出现明显的慢后超极化电位或电流。
Most of these neurons showed a prominent slow after - hyperpolarization potential or current in response to depolarizing pulse.
去极化刺激仅可诱发出一外向电流。
工作电解质体系中加入适当去极化剂有利于减小产品的损耗和漏电流。
Depolarizing agents added to the working electrolyte help to decrease the dis...
工作电解质体系中加入适当去极化剂有利于减小产品的损耗和漏电流。
Depolarizing agents added to the working electrolyte help to decrease the dis...
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