Literature DB >> 32186515

Temporal cascade of frontal, motor and muscle processes underlying human action-stopping.

Sumitash Jana1, Ricci Hannah1, Vignesh Muralidharan1, Adam R Aron1.   

Abstract

Action-stopping is a canonical executive function thought to involve top-down control over the motor system. Here we aimed to validate this stopping system using high temporal resolution methods in humans. We show that, following the requirement to stop, there was an increase of right frontal beta (~13 to 30 Hz) at ~120 ms, likely a proxy of right inferior frontal gyrus; then, at 140 ms, there was a broad skeletomotor suppression, likely reflecting the impact of the subthalamic nucleus on basal ganglia output; then, at ~160 ms, suppression was detected in the muscle, and, finally, the behavioral time of stopping was ~220 ms. This temporal cascade supports a physiological model of action-stopping, and partitions it into subprocesses that are isolable to different nodes and are more precise than the behavioral latency of stopping. Variation in these subprocesses, including at the single-trial level, could better explain individual differences in impulse control.
© 2020, Jana et al.

Entities:  

Keywords:  beta burst; electromyography; human; neuroscience; partial response; single trial metric; stop signal task; variability

Year:  2020        PMID: 32186515      PMCID: PMC7159878          DOI: 10.7554/eLife.50371

Source DB:  PubMed          Journal:  Elife        ISSN: 2050-084X            Impact factor:   8.140


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8.  Intracranial EEG reveals a time- and frequency-specific role for the right inferior frontal gyrus and primary motor cortex in stopping initiated responses.

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  25 in total

1.  Common and Unique Inhibitory Control Signatures of Action-Stopping and Attentional Capture Suggest That Actions Are Stopped in Two Stages.

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6.  Temporal cascade of frontal, motor and muscle processes underlying human action-stopping.

Authors:  Sumitash Jana; Ricci Hannah; Vignesh Muralidharan; Adam R Aron
Journal:  Elife       Date:  2020-03-18       Impact factor: 8.140

Review 7.  Towards real-world generalizability of a circuit for action-stopping.

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9.  Double-blind disruption of right inferior frontal cortex with TMS reduces right frontal beta power for action stopping.

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