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Contribution of the Entopeduncular Nucleus and the Globus Pallidus to the Control of Locomotion and Visually Guided Gait Modifications in the Cat

Yannick Mullié, Irène Arto, Nabiha Yahiaoui, Trevor Drew

2020Cerebral Cortex22 citationsDOIOpen Access PDF

Abstract

We tested the hypothesis that the entopeduncular (EP) nucleus (feline equivalent of the primate GPi) and the globus pallidus (GPe) contribute to both the planning and execution of locomotion and voluntary gait modifications in the cat. We recorded from 414 cells distributed throughout these two nuclei (referred to together as the pallidum) while cats walked on a treadmill and stepped over an obstacle that advanced towards them. Neuronal activity in many cells in both structures was modulated on a step-by-step basis during unobstructed locomotion and was modified in the step over the obstacle. On a population basis, the most frequently observed change, in both the EP and the GPe, was an increase in activity prior to and/or during the swing phase of the step over the obstacle by the contralateral forelimb, when it was the first limb to pass over the obstacle. Our results support a contribution of the pallidum, in concert with cortical structures, to the control of both the planning and the execution of the gait modifications. We discuss the results in the context of current models of pallidal action on thalamic activity, including the possibility that cells in the EP with increased activity may sculpt thalamo-cortical activity.

Topics & Concepts

ForelimbNeuroscienceGlobus pallidusContext (archaeology)PopulationGaitBiologyBasal gangliaPsychologyCentral nervous systemMedicinePhysiologyPaleontologyEnvironmental healthNeurological disorders and treatmentsNeuroscience of respiration and sleepZebrafish Biomedical Research Applications
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