par Dumitrescu, Alexandru Mihai;Coolen, Tim 
;Wens, Vincent ;Rovai, Antonin ;Trotta, Nicola ;Goldman, Serge ;De Tiege, Xavier ;Urbain, Charline
Référence Human brain mapping, 46, 2, page (1-13)
Publication Publié, 2025-01-21
;Wens, Vincent ;Rovai, Antonin ;Trotta, Nicola ;Goldman, Serge ;De Tiege, Xavier ;Urbain, Charline Référence Human brain mapping, 46, 2, page (1-13)
Publication Publié, 2025-01-21
Article révisé par les pairs
| Résumé : | Language control processes allow for the flexible manipulation and access to context-appropriate verbal representations. Functional magnetic resonance imaging (fMRI) studies have localized the brain regions involved in language control processes usually by comparing high vs. low lexical–semantic control conditions during verbal tasks. Yet, the spectro-temporal dynamics of associated brain processes remain unexplored, preventing a proper understanding of the neural bases of language control mechanisms. To do so, we recorded functional brain activity using magnetoencephalography (MEG) and fMRI, while 30 healthy participants performed a silent verb generation (VGEN) and a picture naming (PN) task upon confrontation with pictures requiring low or high lexical–semantic control processes. fMRI confirmed the association between stronger language control processes and increased left inferior frontal gyrus (IFG) perfusion, while MEG revealed these controlled mechanisms to be associated with a specific sequence of early (< 500 ms) and late (> 500 ms) beta-band (de)synchronization processes within fronto-temporo-parietal areas. Particularly, beta-band modulations of event-related (de)synchronization mechanisms were first observed in the right IFG, followed by bilateral IFG and temporo-parietal brain regions. Altogether, these results suggest that beyond a specific recruitment of inferior frontal brain regions, language control mechanisms rely on a complex temporal sequence of beta-band oscillatory mechanisms over antero-posterior areas. |
