人类周围神经运动和感觉纤维中的潜伏性增加。
Latent addition in motor and sensory fibres of human peripheral nerve.
作者信息
Bostock H, Rothwell J C
机构信息
Institute of Neurology, Queen Square, London, UK.
出版信息
J Physiol. 1997 Jan 1;498 ( Pt 1)(Pt 1):277-94. doi: 10.1113/jphysiol.1997.sp021857.
Abstract
- The time constants of motor and sensory nerve fibres were studied in normal human ulnar nerves by the method of latent addition, using threshold tracking to follow the recovery of excitability after brief conditioning current pulses. The 60 microseconds test and conditioning stimuli were applied at the wrist, and the conditioning stimuli were set to 90, 60, 30, -30, -60 and -90% of the control threshold current. Compound muscle action potentials were recorded from abductor digiti minimi, and sensory nerve action potentials from the little finger. 2. Recovery from depolarizing conditioning pulses was slower than recovery from hyperpolarizing pulses and strongly dependent on conditioning pulse amplitude. The voltage dependence of latent addition was attributed to subthreshold activation of sodium channels (local response). 3. Motor and sensory nerve excitability generally recovered from -90% hyperpolarizing pulses as the sum of two exponential components, although the slow component was negligible in some motor nerves. The fast component (time constant 43.3 +/- 2.0 microseconds, mean +/- S.E.M., n = 9) was similar between motor and sensory fibres in the same subject. It showed no consistent voltage dependence, and was attributed to a passive input time constant of the fibres. The slow component of recovery from hyperpolarizing pulses was greater in sensory than in motor fibres and was voltage dependent: it could be greatly increased in motor and sensory fibres by steady depolarization. It was attributed to a regenerative membrane current, active at the resting potential in sensory and at least some motor nerves. 4. The latent addition responses were compared with the computed responses of four theoretical models. Both motor and sensory responses were well fitted by a model in which a fraction of the sodium channels (less in motor than in sensory fibres) were activated at potentials 20 mV more negative than normal and at half the normal rate, and did not inactivate. 5. It is concluded that the differences in latent addition between motor and sensory fibres are primarily due to differences in non-classical, voltage-dependent ion channels, active close to the resting potential. These "threshold channels' may help to account for the longer strength-duration time constant of sensory fibres, for their lower rheobase, and for their greater tendency to fire repetitively.
摘要
- 采用潜伏叠加法,通过阈值跟踪来观察短暂条件电流脉冲后兴奋性的恢复情况,对正常人尺神经中的运动和感觉神经纤维的时间常数进行了研究。60微秒的测试刺激和条件刺激施加于腕部,条件刺激设定为对照阈值电流的90%、60%、30%、-30%、-60%和-90%。从小指展肌记录复合肌肉动作电位,从小指记录感觉神经动作电位。2. 去极化条件脉冲后的恢复比超极化脉冲后的恢复慢,且强烈依赖于条件脉冲幅度。潜伏叠加的电压依赖性归因于钠通道的阈下激活(局部反应)。3. 运动和感觉神经兴奋性通常从-90%超极化脉冲恢复时表现为两个指数成分之和,尽管在某些运动神经中慢成分可忽略不计。同一受试者的运动和感觉纤维中快速成分(时间常数43.3±2.0微秒,均值±标准误,n = 9)相似。它没有一致的电压依赖性,归因于纤维的被动输入时间常数。超极化脉冲恢复的慢成分在感觉纤维中比在运动纤维中更大且具有电压依赖性:通过稳定去极化,运动和感觉纤维中的慢成分可大幅增加。它归因于一种再生性膜电流,在感觉神经和至少一些运动神经的静息电位时活跃。4. 将潜伏叠加反应与四个理论模型的计算反应进行了比较。运动和感觉反应都能很好地由一个模型拟合,该模型中一部分钠通道(运动纤维中比感觉纤维中的少)在比正常电位负20 mV时以正常速率的一半被激活,且不会失活。5. 得出结论,运动和感觉纤维在潜伏叠加方面的差异主要是由于在静息电位附近活跃的非经典电压依赖性离子通道的差异。这些“阈值通道”可能有助于解释感觉纤维较长的强度-时间常数、较低的基强度以及更高的重复放电倾向。
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