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Prefrontal cortical plasticity during learning of cognitive tasks

Hua Tang, Mitchell R. Riley, Balbir Singh, Xue-Lian Qi, David T. Blake, Christos Constantinidis

2022Nature Communications44 citationsDOIOpen Access PDF

Abstract

Training in working memory tasks is associated with lasting changes in prefrontal cortical activity. To assess the neural activity changes induced by training, we recorded single units, multi-unit activity (MUA) and local field potentials (LFP) with chronic electrode arrays implanted in the prefrontal cortex of two monkeys, throughout the period they were trained to perform cognitive tasks. Mastering different task phases was associated with distinct changes in neural activity, which included recruitment of larger numbers of neurons, increases or decreases of their firing rate, changes in the correlation structure between neurons, and redistribution of power across LFP frequency bands. In every training phase, changes induced by the actively learned task were also observed in a control task, which remained the same across the training period. Our results reveal how learning to perform cognitive tasks induces plasticity of prefrontal cortical activity, and how activity changes may generalize between tasks.

Topics & Concepts

Prefrontal cortexLocal field potentialNeuroscienceNeuroplasticityCognitionTask (project management)Working memoryElementary cognitive taskNeural activityElectroencephalographyPsychologyCognitive psychologyEconomicsManagementNeural dynamics and brain functionEEG and Brain-Computer InterfacesNeural and Behavioral Psychology Studies