传递温热和冷觉的外周神经纤维的传导速度。
The conduction velocities of peripheral nerve fibres conveying sensations of warming and cooling.
作者信息
Fowler C J, Sitzoglou K, Ali Z, Halonen P
机构信息
Reta Lila Weston Institute of Neurological Studies, Middlesex Hospital Medical School, London, UK.
出版信息
J Neurol Neurosurg Psychiatry. 1988 Sep;51(9):1164-70. doi: 10.1136/jnnp.51.9.1164.
Abstract
With the current practice of measuring thresholds for warming and cooling separately, the question of the exact nature of afferents subserving these sensations assumes new importance. Experiments to measure reaction times to warming and cooling stimuli at two sites on the lower limb are described. The conduction velocity for each sensation was estimated from the conduction distance and conduction time in the limb. The estimated mean conduction velocity for warming was 0.5, SD 0.2 m/s and cooling 2.1, SD 0.8 m/s. These figures confirm that the sensation of warming is conveyed in unmyelinated and cooling in small myelinated peripheral nerve fibres.
摘要
鉴于目前分别测量温热和冷觉阈值的做法,负责这些感觉的传入神经的确切性质问题具有了新的重要性。本文描述了在下肢两个部位测量对温热和冷刺激的反应时间的实验。根据肢体中的传导距离和传导时间估算了每种感觉的传导速度。温热觉的估计平均传导速度为0.5,标准差为0.2米/秒;冷觉的估计平均传导速度为2.1,标准差为0.8米/秒。这些数据证实,温热觉是通过无髓鞘神经纤维传导的,而冷觉是通过细的有髓鞘外周神经纤维传导的。
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