Lang A H, Sillanpää M, Hynninen P
Acta Neurol Scand. 1983 Feb;67(2):108-13. doi: 10.1111/j.1600-0404.1983.tb04551.x.
Nerve conduction velocities (NCVs) in both motor and sensory nerves as well as nerve action potentials (NAPs) of sensory nerves were measured bilaterally in 24 children with cerebral palsy. The NAP amplitude and both sensory and motor NCV were on the average higher on the intact or less affected side. The NCV side difference was still present after the temperature asymmetry of the limbs had been taken into account by calculating the temperature-corrected NCV values, and was statistically significant for motor NCV in N. peroneus and for sensory NCV in N. suralis; this could neither be explained on the basis of spasticity nor by the length difference of the extremities. No correlation of NCV asymmetry with the degree of atrophy seemed to exist.
对24名脑瘫患儿双侧测量了运动神经和感觉神经的神经传导速度(NCV)以及感觉神经的神经动作电位(NAP)。感觉神经动作电位的振幅以及感觉和运动神经传导速度平均在未受损或受损较轻的一侧更高。通过计算温度校正后的神经传导速度值来考虑肢体温度不对称后,神经传导速度的侧别差异仍然存在,并且对于腓神经的运动神经传导速度和腓肠神经的感觉神经传导速度具有统计学意义;这既不能用痉挛来解释,也不能用肢体长度差异来解释。神经传导速度不对称与萎缩程度之间似乎不存在相关性。
