Working memory modulates neural efficiency over motor components during a novel action planning task: an EEG study.

Research shows neural efficiency of motor-related activity based on learning and expertise in a specific domain (e.g., guitar playing, sharp-shooting or a sport). However, it is unknown whether neural efficiency of motor-related activity, underlying action planning and maintenance, can be modulated by general cognitive ability alone. This study examined whether working memory span can influence motor-related neural activity during a novel motor task. Participants were divided into low- and high-span working memory groups based on their scores in an operation span task. Afterwards, participants learned different sequences of button responses corresponding to different abstract stimuli. The task required participants to briefly maintain an action plan in working memory to a stimulus that they would execute after responding to a subsequent stimulus. We used EEG to record changes in event related power in the mu- and beta-bands in left and right motor components during the interval where participants planned and maintained an action in working memory. Results showed decreases in mu- and beta-event related power for low-span participants and increases in mu- and beta-event related power for high-span participants over the left motor cluster while maintaining an action plan in working memory. Also, high-span participants were faster and more accurate in the task than low-span participants. This suggests that neural efficiency during a novel motor task can be influenced by working memory span, and that such differences are localized to the motor system.