Abstract
The adult human brain would appear to have specialized and independent neural systems for the visual processing of words and faces. Extensive evidence has demonstrated greater selectivity for written words in the left over right hemisphere, and, conversely, greater selectivity for faces in the right over left hemisphere. This study examines the emergence of these complementary neural profiles, as well as the possible relationship between them. Using behavioral and neurophysiological measures, in adults, we observed the standard finding of greater accuracy and a larger N170 ERP component in the left over right hemisphere for words, and conversely, greater accuracy and a larger N170 in the right over the left hemisphere for faces. We also found that although children aged 7–12 years revealed the adult hemispheric pattern for words, they showed neither a behavioral nor a neural hemispheric superiority for faces. Of particular interest, the magnitude of their N170 for faces in the right hemisphere was related to that of the N170 for words in their left hemisphere. These findings suggest that the hemispheric organization of face recognition and of word recognition does not develop independently, and that word lateralization may precede and drive later face lateralization. A theoretical account for the findings, in which competition for visual representations unfolds over the course of development, is discussed.
Highlights
The adult human brain appears to have highly specialized and seemingly independent neural systems for the visual processing of words and faces
We investigated the lateralization of processing of words and faces as reflected by the response accuracy to stimuli presented in the left visual field (LVF) and right visual field (RVF)
There was a significant stimulus by visual field interaction (F (1,32)1⁄416.77, p o.001) that was in the predicted direction, with higher accuracy for words in the RVF over the LVF (t(33) 1⁄4 4.4, p o.001) and higher accuracy for faces in the LVF over the RVF (t (33) 1⁄42.1, p 1⁄4.04)
Summary
The adult human brain appears to have highly specialized and seemingly independent neural systems for the visual processing of words and faces. Behavioral and neurophysiological data are presented that support a theoretical view in which the emerging hemispheric category-selectivity for word and face recognition are tightly coupled and are not independent of each other. The dominance of the left over the right hemisphere for visual word processing is well established in right-handed adults (Grüsser & Landis, 1991; Hellige, Laeng, & Michimata, 2010). This left hemisphere (LH) superiority for words has long been demonstrated in behavioral studies, with participants showing an advantage for identifying orthographic stimuli presented in the right visual field (RVF) over those presented in the left visual field (LVF). Neuroimaging studies have identified a region of the inferior temporal cortex, the Visual Word Form Area (VWFA; Talairach coordinates: x1⁄4 À 43, y1⁄4 À 54, z1⁄4 À 12), that shows greater selectivity for words over other visual stimuli in the left than right hemisphere (Cohen et al 2000; Puce, Allison, Asgari, Gore, & McCarthy, 1996; for review, see Price & Devlin, 2011)
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