Motor activation time in Parkinson's disease.

Abstract

Motor activation time (MAT), considered in the present work as the actual intracerebral processing delay during a reaction time (RT) task, was assessed in 17 patients with Parkinson's disease (PD) and in 7 age-matched healthy volunteers. MAT was calculated by subtracting from the premotor RT the afferent and efferent times obtained by sensory and motor evoked potentials. When compared with healthy volunteers, patients exhibited significantly (p < 0.02) prolonged MATs. In a smaller group of 9 PD patients MAT and the auditory P3 event related potential were assessed while on antiparkinsonian treatment and after a 12-hour withdrawal period. During the off medication condition patients showed a significant slowing (p < 0.01) of MAT values without any remarkable change in P3 latency or amplitude. These results suggest that MAT slowing indicates an abnormal function of the dopaminergic mechanism involved in the initiation of movement which is not related to changes in the arousal or cognitive state.