Literature DB >> 32155442

Prefrontal-Subthalamic Hyperdirect Pathway Modulates Movement Inhibition in Humans.

Witney Chen1, Coralie de Hemptinne2, Andrew M Miller3, Michael Leibbrand4, Simon J Little5, Daniel A Lim6, Paul S Larson6, Philip A Starr7.   

Abstract

The ability to dynamically change motor outputs, such as stopping an initiated response, is an important aspect of human behavior. A hyperdirect pathway between the inferior frontal gyrus and subthalamic nucleus is hypothesized to mediate movement inhibition, but there is limited evidence for this in humans. We recorded high spatial and temporal resolution field potentials from both the inferior frontal gyrus and subthalamic nucleus in 21 subjects. Cortical potentials evoked by subthalamic stimulation revealed short latency events indicative of monosynaptic connectivity between the inferior frontal gyrus and ventral subthalamic nucleus. During a stop signal task, stopping-related potentials in the cortex preceded stopping-related activity in the subthalamic nucleus, and synchronization between these task-evoked potentials predicted the stop signal reaction time. Thus, we show that a prefrontal-subthalamic hyperdirect pathway is present in humans and mediates rapid stopping. These findings may inform therapies to treat disorders featuring perturbed movement inhibition.
Copyright © 2020 Elsevier Inc. All rights reserved.

Entities:  

Keywords:  Parkinson’s disease; electrocorticography; hyperdirect pathway; movement inhibition; prefrontal cortex

Mesh:

Year:  2020        PMID: 32155442      PMCID: PMC7274135          DOI: 10.1016/j.neuron.2020.02.012

Source DB:  PubMed          Journal:  Neuron        ISSN: 0896-6273            Impact factor:   17.173


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6.  Cortical Potentials Evoked by Subthalamic Stimulation Demonstrate a Short Latency Hyperdirect Pathway in Humans.

Authors:  Svjetlana Miocinovic; Coralie de Hemptinne; Witney Chen; Faical Isbaine; Jon T Willie; Jill L Ostrem; Philip A Starr
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7.  The subthalamic nucleus is involved in successful inhibition in the stop-signal task: a local field potential study in Parkinson's disease.

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Review 8.  Insights into the neural basis of response inhibition from cognitive and clinical neuroscience.

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