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Increasing human motor skill acquisition by driving theta–gamma coupling

Haya Akkad, Joshua Dupont-Hadwen, Edward Kane, Carys Evans, Liam Barrett, Amba Frese, Irena Tetkovic, Sven Bestmann, Charlotte J Stagg

2021eLife62 citationsDOIOpen Access PDF

Abstract

Skill learning is a fundamental adaptive process, but the mechanisms remain poorly understood. Some learning paradigms, particularly in the memory domain, are closely associated with gamma activity that is amplitude modulated by the phase of underlying theta activity, but whether such nested activity patterns also underpin skill learning is unknown. Here, we addressed this question by using transcranial alternating current stimulation (tACS) over sensorimotor cortex to modulate theta-gamma activity during motor skill acquisition, as an exemplar of a non-hippocampal-dependent task. We demonstrated, and then replicated, a significant improvement in skill acquisition with theta-gamma tACS, which outlasted the stimulation by an hour. Our results suggest that theta-gamma activity may be a common mechanism for learning across the brain and provides a putative novel intervention for optimizing functional improvements in response to training or therapy.

Topics & Concepts

Dreyfus model of skill acquisitionMotor learningNeuroscienceTranscranial alternating current stimulationMechanism (biology)Motor skillTranscranial magnetic stimulationCoupling (piping)Transcranial direct-current stimulationStimulationMotor cortexPsychologyComputer scienceBrain stimulationCognitive psychologyBrain activity and meditationPhase (matter)Primary motor cortexHuman brainFunctional electrical stimulationMotor systemPhysicsIntervention (counseling)Artificial intelligenceMotor activityCortex (anatomy)AmplitudeNeuroplasticityMotor controlWorking memoryTranscranial Magnetic Stimulation StudiesNeural and Behavioral Psychology StudiesAction Observation and Synchronization
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