Objective: To explore the recording method of the electrophysiological signals in corticospinal tract (CST) of adult rats by plugging microelectrodes and analyze the characteristics of these signals. These could provide some valuable and basic neural electrophysiological information for further research of recovering and refunctioning after spinal cord injury.
Methods: The microelectrodes were plugged into the corticospinal tract at the T8 spinal section of Sprague-Dawley rats and the neuro-electrical signals were identified and recorded from CST by means of the Cerebus System. The characteristics of the recorded signals were described with the help of the Offline sorter and Neuroexplorer softwares, including the wavelength, amplitude, discharging frequency, the synchrony among the multi-discharging units from the same electrode and two different electrodes, analysis of interspike interval (ISI), etc.
Results: The continuous and steady spontaneous electrophysiological signals were recorded from CST. Three or four types of discharging signals originated from different discharging units were collected with each electrode. The waveform of the signals appeared bidirectional. The wavelengths were 0.6 - 1.3 ms with wave amplitudes at a grade of hundred microvoltage and high signal-noise ratios. The LFB staining proved that the electrodes were accurately plugged into the corticospinal tract.
Conclusion: The neuro-electrical signals at a grade of hundred microvoltage could be recorded stably from the corticospinal tract of rats by the Cerebus System with the microelectrodes, which provided valuable and basic neural electrophysiological information for further research on recovering and refunctioning after spinal cord injury (SCI) by analyzing the characteristics of electrophysiological signals.