假如神经传导可以直接测量的话,将对受损神经连接损害部位的修复工作十分有利。神经传导速度一般通过终末端器官,如肌肉皮肤诱发神经动作电位潜伏期和距离间接计算而知。但是这种检测方法的缺点在于只在终未端器官不被去除神经支配的情况下才能实施。所以,对于神经再生不能达到终末端器官的情形,传导速度价值被误认为零,为了解决这一问题,其中一个模拟电极和一个记录电极直接放置在神经干上,或分别放在相距不远的神经 If the nerve conduction can be measured directly, it will be very beneficial for the restoration of damaged nerve connection damage. Nerve conduction velocity is generally calculated by the terminal organ, such as the latent period and distance induced by muscle-derived nerve action potentials. However, the disadvantage of this method is that it can only be performed if the terminal organ is not denervated. Therefore, in the case where nerve regeneration can not reach the terminal organ, the conduction velocity value is mistaken for zero. In order to solve this problem, one of the simulation electrodes and one recording electrode are placed directly on the nerve trunk or placed not far apart nerve