Neural dynamics supporting longitudinal plasticity of action naming across languages: MEG evidence from bilingual brain tumor patients
Fecha
2023Autor
Geng, Shuang
Quiñones, Ileana
Gil-Robles, Santiago
Pomposo Gastelu, Iñigo Cristobal
Bermudez, Garazi
Timofeeva, Polina
Molinaro, Nicola
Carreiras, Manuel
Amoruso, Lucia
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Shuang Geng, Ileana Quiñones, Santiago Gil-Robles, Iñigo Cristobal Pomposo Gastelu, Garazi Bermudez, Polina Timofeeva, Nicola Molinaro, Manuel Carreiras, Lucia Amoruso, “Neural dynamics supporting longitudinal plasticity of action naming across languages: MEG evidence from bilingual brain tumor patients”, Neuropsychologia, Volume 181, 2023, 108494, ISSN 0028-3932, https://doi.org/10.1016/j.neuropsychologia.2023.108494
Neuropsychologia
Neuropsychologia
Resumen
Previous evidence suggests that distinct ventral and dorsal streams respectively underpin the semantic processing
of object and action knowledge. Recently, we found that brain tumor patients with dorsal gliomas in frontoparietal
hubs show a selective longitudinal compensation (post-vs. pre-surgery) during the retrieval of lexicosemantic
information about actions (but not objects), indexed by power increases in beta rhythms (13–28
Hz). Here, we move one-step further and ask whether a similar organizational principle also stands across the
different languages a bilingual speaks. To test this hypothesis, we combined a picture-naming task with MEG
recordings and evaluated highly proficient Spanish-Basque bilinguals undergoing surgery for tumor resection in
left frontoparietal regions. We assessed patients before and three months after surgery. At the behavioral level,
we observed a similar performance across sessions irrespectively of the language at use, suggesting overall
successful function preservation. At the oscillatory level, we found longitudinal selective power increases in beta
for action naming in Spanish and Basque. Nevertheless, tumor resection triggered a differential reorganization of
the L1 and the L2, with the latter one additionally recruiting the right hemisphere. Overall, our results provide
evidence for (i) the specific involvement of frontoparietal regions in the semantic retrieval/representation of
action knowledge across languages; (ii) a key role of beta oscillations as a signature of language compensation
and (iii) the existence of divergent plasticity trajectories in L1 and L2 after surgery. By doing so, they provide
new insights into the spectro-temporal dynamics supporting postoperative recovery in the bilingual brain.