The respective roles of basal ganglia (BG) and the mesencephalic locomotor region (MLR) in the postural control and locomotion are not clearly established in humans. In these circuits, the subthalamic nucleus (STN) and the pedunculopuntine nucleus (PPN), two interconnected structures, appear to be involved in the locomotor pattern control and postural maintenance. Indeed, in patients with Parkinson’s disease (PD), characterized by a progressive loss of dopaminergic neurons and representing a model of dysfunction of the BG, there are dysfunctions of STN activity that could cause braking of movement underlying motor block (freezing of gait-FOG). In the PPN, greater loss of cholinergic neurons is observed in PD patients with falls. In this research, we studied STN activity and the effects of modulating the PPN activity during the stages of gait initiation (GI) in patients with PD. We found a modulation of activity of the STN with synchronization in the alpha frequency band before the postural adjustments and the execution of step, with PPN coherence. Low frequency stimulation of the PPN improved postural control with no significant effect on the locomotion. These data suggest that the STN is involved in the preparation of GI and the PPN has a leading role in postural control in humans. In a second part, we examined the role of the cortex-basal ganglia-PPN circuit in FOG and falls in a non-parkinsonian elderly population and demonstrated a selective lesion of this circuit in these subjects. Taken together, these data support the pathophysiological hypothesis for the origin of abnormal gait and balance in patients with PD, with lesion and/or dysfunction of the cortex-BG-PPN.
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