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Local field potential (LFP) recordings from patients with deep brain stimulation electrodes in the basal ganglia have suggested that frequency-specific activities correlate with force or effort, but previous studies have not been able to disambiguate the two. Here, we dissociated effort from actual force generated by contrasting the force generation of different fingers while recording LFP activity from the subthalamic nucleus (STN) in patients with Parkinson's disease who had undergone functional surgery. Patients were studied while on their normal dopaminergic medication. We investigated the relationship between frequency-specific oscillatory activity in the STN and voluntary flexion of either the index or little finger at different effort levels. At each tested effort level (10%, 25%, and 40% of the maximal voluntary contraction force of each individual finger), the index finger generated larger force than the little finger. Movement-related suppression of beta-band power in the STN LFP was significantly modulated by effort, but not by which finger was used, suggesting that the beta suppression in the STN LFP during sustained contraction serves as a proxy for effort. The absolute force scaled with beta power suppression, but with the scaling determined by the maximal voluntary contraction force of the motor effector. Our results argue against the hypothesis that the basal ganglia are directly involved in the parameterization of force during movement and support a role of the STN in the control of motor effort to be attributed to a response.

Original publication

DOI

10.1523/JNEUROSCI.4609-14.2015

Type

Journal article

Journal

J Neurosci

Publication Date

15/04/2015

Volume

35

Pages

5941 - 5949

Keywords

basal ganglia, beta oscillation, force generation, local field potentials, motor effort, Adult, Aged, Analysis of Variance, Basal Ganglia, Deep Brain Stimulation, Evoked Potentials, Female, Fingers, Functional Laterality, Humans, Magnetic Resonance Imaging, Male, Middle Aged, Multivariate Analysis, Parkinsonian Disorders, Subthalamic Nucleus