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Literature DB >> 31989165

Subthalamic Nucleus Activity Influences Sensory and Motor Cortex during Force Transduction.

Ahmad Alhourani¹, Anna Korzeniewska², Thomas A Wozny³, Witold J Lipski³, Efstathios D Kondylis³, Avniel S Ghuman^3,4, Nathan E Crone², Donald J Crammond³, Robert S Turner^4,5, R Mark Richardson^6,7.

Abstract

The subthalamic nucleus (STN) is proposed to participate in pausing, or alternately, in dynamic scaling of behavioral responses, roles that have conflicting implications for understanding STN function in the context of deep brain stimulation (DBS) therapy. To examine the nature of event-related STN activity and subthalamic-cortical dynamics, we performed primary motor and somatosensory electrocorticography while subjects (n = 10) performed a grip force task during DBS implantation surgery. Phase-locking analyses demonstrated periods of STN-cortical coherence that bracketed force transduction, in both beta and gamma ranges. Event-related causality measures demonstrated that both STN beta and gamma activity predicted motor cortical beta and gamma activity not only during force generation but also prior to movement onset. These findings are consistent with the idea that the STN participates in motor planning, in addition to the modulation of ongoing movement. We also demonstrated bidirectional information flow between the STN and somatosensory cortex in both beta and gamma range frequencies, suggesting robust STN participation in somatosensory integration. In fact, interactions in beta activity between the STN and somatosensory cortex, and not between STN and motor cortex, predicted PD symptom severity. Thus, the STN contributes to multiple aspects of sensorimotor behavior dynamically across time.

Keywords: deep brain stimulation; electrocorticography; sensory integration; subthalamic nucleus

Year: 2020 PMID： 31989165 PMCID： PMC7174991 DOI： 10.1093/cercor/bhz264

Source DB: PubMed Journal: Cereb Cortex ISSN： 1047-3211 Impact factor: 5.357

56 in total

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7. Patterns of bidirectional communication between cortex and basal ganglia during movement in patients with Parkinson disease.

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5 in total

1. Electrocorticography is superior to subthalamic local field potentials for movement decoding in Parkinson's disease.

Authors: Robert Mark Richardson; Wolf-Julian Neumann; Timon Merk; Victoria Peterson; Witold J Lipski; Benjamin Blankertz; Robert S Turner; Ningfei Li; Andreas Horn
Journal: Elife Date: 2022-05-27 Impact factor: 8.713

2. Deep brain stimulation for parkinson's disease induces spontaneous cortical hypersynchrony in extended motor and cognitive networks.

Authors: Maxwell B Wang; Matthew J Boring; Michael J Ward; R Mark Richardson; Avniel Singh Ghuman
Journal: Cereb Cortex Date: 2022-10-08 Impact factor: 4.861