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Dynamic control of decision and movement speed in the human basal ganglia

Medicine and Health

Dynamic control of decision and movement speed in the human basal ganglia

D. M. Herz, M. Bange, et al.

This groundbreaking research explores how the basal ganglia influence decision-making and movement speed, revealing independent control mechanisms in the subthalamic nucleus. Conducted by Damian M. Herz and colleagues, this study provides valuable insights into adaptive behavior in Parkinson's disease patients through advanced electrophysiological techniques.

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Playback language: English
Abstract
This study investigates the neural mechanisms underlying the control of decision and movement speed in the human basal ganglia, specifically focusing on the subthalamic nucleus (STN). Using invasive electrophysiological recordings, electrical stimulation, and computational modeling of perceptual decision-making in Parkinson's disease patients undergoing deep brain stimulation surgery, the researchers demonstrate that the STN independently controls decision and movement speed in distinct processing windows. The findings suggest that the basal ganglia independently control the speed of decisions and movements for each hemisphere during adaptive behavior.
Publisher
Nature Communications
Published On
Dec 07, 2022
Authors
Damian M. Herz, Manuel Bange, Gabriel Gonzalez-Escamilla, Miriam Auer, Keyoumars Ashkan, Petra Fischer, Huiling Tan, Rafal Bogacz, Muthuraman Muthuraman, Sergiu Groppa, Peter Brown
Tags
basal ganglia
subthalamic nucleus
decision-making
movement speed
Parkinson's disease
electrophysiological recordings
deep brain stimulation

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