[Pathophysiology of involuntary movements in adults].

Inhibitory control of basal ganglia output to thalamocortical projection plays an important role in normal cortical activity in the current model of the basal ganglia motor circuit. Hypokinetic and hyperkinetic movement disorders of basal ganglia origin can be explained by excess or collapse of the basal ganglia output. An abundance of evidence indicates that parkinsonian akinesia results from hyperactivity of the basal ganglia output. Reversal of akinesia by lesions of the internal division of the globus pallidus (GPi) or its excitatory source, the subthalamic nucleus, agrees with this pathological schema. Ballism associated with subthalamic lesions, and dopa-induced dyskinesia are regarded as hyperkinetic disorders resulting from suppressed subthalamopallidal projection. Decreased firing rate in GPi was reported in both disorders. However, pallidotomy has recently been postulated to abolish both ballism and dopa-induced dyskinesia. A possible mechanism for the effect of GPi destruction in these hyperkinetic disorders may be blockade of the generation or conduction of phasic neuronal activities driving choreic movements. Symptomatologically, dystonia has aspects of both hypokinetic and hyperkinetic disorders. Overactivity of the premotor cortices, which receive projections from the basal ganglia via the ventral thalamus, was found both at rest and on movement in idiopathic dystonia. This abnormal cortical activity may arise from underactivity of basal ganglia output; however, the amelioration of dystonia with pallidotomy suggests a complex pathomechanism of the pallidothalamic system in dystonia.