Distinct mechanisms drive hemispheric lateralization of object recognition in the visual word form and fusiform face areas.

Distinct mechanisms drive hemispheric lateralization of object recognition in the visual word form and fusiform face areas. Brain Lang. 2020 Sep 15;210:104860 Authors: Canário N, Jorge L, Castelo-Branco M Abstract The Visual Word Form Area (VWFA) and the Fusiform Face Area (FFA) represent classical examples of functional lateralization. The known hypothesis that lateralization of the VWFA and FFA are related remains controversial. We hypothesized that lateralization is independent and might be associated with lateralized high-level top-down mechanisms. For the VWFA this could emerge from left-lateralized language regions. This driving force might modulate local reorganization/recycling of function. Using an fMRI recognition paradigm, we quantified lateralization and investigated effective connectivity to examine mechanisms associated with lateralization in these regions (n = 58). Laterality patterns were more pronounced for VWFA than for FFA. Granger Causality Analysis found top-down effects only for the VWFA (left-lateralized, stemming from Broca's area). FFA exerted top-down effects on low-level visual areas. These findings suggest that distinct mechanisms are associated with hemispheric lateralization in object recognition: left lateralized top-down for VWFA and only early visual top-down effects concerning the FFA. PMID: 32947074 [PubMed - as supplied by publisher]
Source: Brain and Language - Category: Neurology Authors: Tags: Brain Lang Source Type: research
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