Anna Pavlova scite author profile

The contribution of the motor cortex to the semantic retrieval of verbs remains a subject of debate in neuroscience. Here, we examined whether additional engagement of the cortical motor system was required when access to verbs semantics was hindered during a verb generation task. We asked participants to produce verbs related to presented noun cues that were either strongly associated with a single verb to prompt fast and effortless verb retrieval, or were weakly associated with multiple verbs and more difficult to respond to. Using power suppression of magnetoencephalography beta oscillations (15–30 Hz) as an index of cortical activation, we performed a whole‐brain analysis in order to identify the cortical regions sensitive to the difficulty of verb semantic retrieval. Highly reliable suppression of beta oscillations occurred 250 ms after the noun cue presentation and was sustained until the onset of verbal response. This was localized to multiple cortical regions, mainly in the temporal and frontal lobes of the left hemisphere. Crucially, the only cortical regions where beta suppression was sensitive to the task difficulty, were the higher order motor areas on the medial and lateral surfaces of the frontal lobe. Stronger activation of the premotor cortex and supplementary motor area accompanied the effortful verb retrieval and preceded the preparation of verbal responses for more than 500 ms, thus, overlapping with the time window of verb retrieval from semantic memory. Our results suggest that reactivation of verb‐related motor plans in higher order motor circuitry promotes the semantic retrieval of target verbs.

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Learning of new associations invokes a major change in modulations of cortical beta oscillations in human adults

Pavlova

Tyulenev

Tretyakova

et al. 2023

Psychophysiology

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Large-scale cortical beta (β) oscillations were implicated in the learning processes, but their exact role is debated. We used MEG to explore the dynamics of movement-related βoscillations while 22 adults learned, through trial and error, novel associations between four auditory pseudowords and movements of four limbs. As learning proceeded, spatial-temporal characteristics of βoscillations accompanying cue-triggered movements underwent a major transition. Early in learning, widespread suppression of βpower occurred long before movement initiation and sustained throughout the whole behavioral trial. When learning advanced and performance reached asymptote, βsuppression after the initiation of correct motor response was replaced by a rise in βpower mainly in the prefrontal and medial temporal regions of the left hemisphere. This post-decision βpower predicted trial-by-trial response times (RT) at both stages of learning (before and after the rules become familiar), but with different signs of interaction. When a subject just started to acquire associative rules and gradually improved task performance, a decrease in RT correlated with the increase in the post-decision βband power. When the participants implemented the already acquired rules, faster (more confident) responses were associated with the weaker post-decision βband synchronization. Our findings suggest that maximal beta activity is pertinent to a distinct stage of learning and may serve to strengthen the newly learned association in a distributed memory network.

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Learning of Pseudoword-Movement Association is Accompanied by Enhanced Beta Synchronization

Pavlova

Tyulenev

Tretyakova

et al. 2021

International Journal of Psychophysiology

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Anna Pavlova

Effortful verb retrieval from semantic memory drives beta suppression in mesial frontal regions involved in action initiation

Learning of new associations invokes a major change in modulations of cortical beta oscillations in human adults

Learning of Pseudoword-Movement Association is Accompanied by Enhanced Beta Synchronization

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