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The optimal distance between two electrode tips during recording of compound nerve action potentials in the rat median nerve

正演 逆向的 复合肌肉动作电位 电生理学 电极 正中神经 化学 动作电位 解剖 生物医学工程 医学 内科学 物理化学
作者
Jie Lao,Yongping Li,Xin Zhao,Dong Tian,Yi Zhu,Xiaochun Wei
出处
期刊:Neural Regeneration Research [Medknow]
卷期号:9 (2): 171-171 被引量:10
标识
DOI:10.4103/1673-5374.125346
摘要

The distance between the two electrode tips can greatly influence the parameters used for recording compound nerve action potentials. To investigate the optimal parameters for these recordings in the rat median nerve, we dissociated the nerve using different methods and compound nerve action potentials were orthodromically or antidromically recorded with different electrode spacings. Compound nerve action potentials could be consistently recorded using a method in which the middle part of the median nerve was intact, with both ends dissociated from the surrounding fascia and a ground wire inserted into the muscle close to the intact part. When the distance between two stimulating electrode tips was increased, the threshold and supramaximal stimulating intensity of compound nerve action potentials were gradually decreased, but the amplitude was not changed significantly. When the distance between two recording electrode tips was increased, the amplitude was gradually increased, but the threshold and supramaximal stimulating intensity exhibited no significant change. Different distances between recording and stimulating sites did not produce significant effects on the aforementioned parameters. A distance of 5 mm between recording and stimulating electrodes and a distance of 10 mm between recording and stimulating sites were found to be optimal for compound nerve action potential recording in the rat median nerve. In addition, the orthodromic compound action potential, with a biphasic waveform that was more stable and displayed less interference (however also required a higher threshold and higher supramaximal stimulus), was found to be superior to the antidromic compound action potential.

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