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Voluntary Motor Command Release Coincides with Restricted Sensorimotor Beta Rhythm Phases

Sara J. Hussain, Mary K. Vollmer, Iñaki Iturrate, Romain Quentin

2022Journal of Neuroscience20 citationsDOIOpen Access PDF

Abstract

Sensory perception and memory are enhanced during restricted phases of ongoing brain rhythms, but whether voluntary movement is constrained by brain rhythm phase is not known. Voluntary movement requires motor commands to be released from motor cortex (M1) and transmitted to spinal motoneurons and effector muscles. Here, we tested the hypothesis that motor commands are preferentially released from M1 during circumscribed phases of ongoing sensorimotor rhythms. Healthy humans of both sexes performed a self-paced finger movement task during electroencephalography (EEG) and electromyography (EMG) recordings. We first estimated the time of motor command release preceding each finger movement by subtracting individually measured corticomuscular transmission latencies from EMG-determined movement onset times. Then, we determined the phase of ipsilateral and contralateral sensorimotor mu (8-12 Hz) and beta (13-35 Hz) rhythms during release of each motor command. We report that motor commands were most often released between 120 and 140along the contralateral beta cycle but were released uniformly along the contralateral mu cycle. Motor commands were also released uniformly along ipsilateral mu and beta cycles. Results demonstrate that motor command release coincides with restricted phases of the contralateral sensorimotor beta rhythm, suggesting that sensorimotor beta rhythm phase may sculpt the timing of voluntary human movement.

Topics & Concepts

RhythmNeuroscienceBeta RhythmMotor cortexSensorimotor rhythmPsychologyElectromyographyElectroencephalographyMotor systemPrimary motor cortexMovement (music)Sensory systemMotor controlPhysical medicine and rehabilitationCommunicationBrain–computer interfaceMedicinePhysicsInternal medicineStimulationAcousticsEEG and Brain-Computer InterfacesNeural dynamics and brain functionFunctional Brain Connectivity Studies
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