What Can Glioma Patients Teach Us about Language (Re)Organization in the Bilingual Brain: Evidence from fMRI and MEG
Date
2021Author
Quiñones, Ileana
Amoruso, Lucia
Pomposo Gastelu, Iñigo Cristobal
Gil-Robles, Santiago
Carreiras, Manuel
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Quiñones, Ileana; Amoruso, Lucia; Pomposo Gastelu, Iñigo C.; Gil-Robles, Santiago; Carreiras, Manuel. 2021. "What Can Glioma Patients Teach Us about Language (Re)Organization in the Bilingual Brain: Evidence from fMRI and MEG" Cancers 13, no. 11: 2593. https://doi.org/10.3390/cancers13112593
Abstract
Recent evidence suggests that the presence of brain tumors (e.g., low-grade gliomas)
triggers language reorganization. Neuroplasticity mechanisms called into play can transfer linguistic
functions from damaged to healthy areas unaffected by the tumor. This phenomenon has been
reported in monolingual patients, but much less is known about the neuroplasticity of language in
the bilingual brain. A central question is whether processing a first or second language involves
the same or different cortical territories and whether damage results in diverse recovery patterns
depending on the language involved. This question becomes critical for preserving language areas in
bilingual brain-tumor patients to prevent involuntary pathological symptoms following resection.
While most studies have focused on intraoperative mapping, here, we go further, reporting clinical
cases for five bilingual patients tested before and after tumor resection, using a novel multimethod
approach merging neuroimaging information from fMRI and MEG to map the longitudinal reshaping
of the language system. Here, we present four main findings. First, all patients preserved linguistic
function in both languages after surgery, suggesting that the surgical intervention with intraoperative
language mapping was successful in preserving cortical and subcortical structures necessary for
brain plasticity at the functional level. Second, we found reorganization of the language network
after tumor resection in both languages, mainly reflected by a shift of activity to right hemisphere
nodes and the recruitment of ipsilesional left nodes. Third, we found that this reorganization varied
according to the language involved, indicating that L1 and L2 follow different reshaping patterns
after surgery. Fourth, oscillatory longitudinal effects were correlated with BOLD laterality changes in
superior parietal and middle frontal areas. These findings may reflect that neuroplasticity impacts on the compensatory involvement of executive control regions, supporting the allocation of cognitive
resources as a consequence of increased attentional demands. Furthermore, these results hint at
the complementary role of this neuroimaging approach in language mapping, with fMRI offering
excellent spatial localization and MEG providing optimal spectrotemporal resolution