Cortical contribution to motor process before and after movement onset

Abstract

Purpose This study determined the cortical areas contributing to the process of the reaction time (RT), movement time, onset-peak time, peak velocity and amplitude of the movement. Methods Eighteen healthy right-handed humans abducted the left index finger in response to a start cue with transcranial magnetic stimulation (TMS). Results There was a significant and positive correlation coefficient between the peak velocity and amplitude, indicating that movement velocity increases with the size of the movement to maintain the consistent time taken for the movement. There was no significant correlation between the RT and movement time, and thus, hypothesis that those are under common motor process was not supported. The RT in the trials with TMS over the dorsal premotor cortex, dorsolateral prefrontal cortex, or posterior parietal cortex was significantly shorter than the RT in the trials with sham TMS, indicating that those areas contribute to the motor process in the RT. The onset-peak time in the trials with TMS over the posterior parietal cortex was significantly shorter than that in the trials with sham TMS, indicating that the posterior parietal cortex contributes to the motor process that determines the time taken for the acceleration phase of the movement. Conclusion The findings support a view that the cortical areas both in front of and behind the primary motor cortex contribute to the motor process before the movement onset, but the areas behind the primary motor cortex particularly contributes to the motor process during the acceleration phase of the movement.