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Greater volumes of a callosal sub-region terminating in posterior language-related areas predict a stronger degree of language lateralization: A tractography study

Victor Karpychev, Tatiana Bolgina, Svetlana Malytina, В. К. Зинченко, Vadim Ushakov, Grigory Ignatyev, Olga Dragoy

2022PLoS ONE15 citationsDOIOpen Access PDF

Abstract

Language lateralization is the most intriguing trait of functional asymmetry for cognitive functions. Nowadays, ontogenetic determinants of this trait are largely unknown, but there are efforts to find its anatomical correlates. In particular, a white matter interhemispheric connection-the corpus callosum-has been proposed as such. In the present study, we aimed to find the association between the degree of language lateralization and metrics of the callosal sub-regions. We applied a sentence completion fMRI task to measure the degree of language lateralization in a group of healthy participants balanced for handedness. We obtained the volumes and microstructural properties of callosal sub-regions with two tractography techniques, diffusion tensor imaging (DTI) and constrained spherical deconvolution (CSD). The analysis of DTI-based metrics did not reveal any significant associations with language lateralization. In contrast, CSD-based analysis revealed that the volumes of a callosal sub-region terminating in the core posterior language-related areas predict a stronger degree of language lateralization. This finding supports the specific inhibitory model implemented through the callosal fibers projecting into the core posterior language-related areas in the degree of language lateralization, with no relevant contribution of other callosal sub-regions.

Topics & Concepts

Lateralization of brain functionCorpus callosumDiffusion MRIPsychologyTractographyDegree (music)White matterArcuate fasciculusSentenceTraitCognitive psychologyNeuroscienceComputer scienceMagnetic resonance imagingMedicineArtificial intelligencePhysicsProgramming languageAcousticsRadiologyAdvanced Neuroimaging Techniques and ApplicationsHemispheric Asymmetry in NeuroscienceMorphological variations and asymmetry