Abstract
The developmental origin of human adults’ right hemispheric dominance in response to face stimuli remains unclear, in particular because young infants’ right hemispheric advantage in face‐selective response is no longer present in preschool children, before written language acquisition. Here we used fast periodic visual stimulation (FPVS) with scalp electroencephalography (EEG) to test 52 preschool children (5.5 years old) at two different levels of face discrimination: discrimination of faces against objects, measuring face‐selectivity, or discrimination between individual faces. While the contrast between faces and nonface objects elicits strictly bilateral occipital responses in children, strengthening previous observations, discrimination of individual faces in the same children reveals a strong right hemispheric lateralization over the occipitotemporal cortex. Picture‐plane inversion of the face stimuli significantly decreases the individual discrimination response, although to a much smaller extent than in older children and adults tested with the same paradigm. However, there is only a nonsignificant trend for a decrease in right hemispheric lateralization with inversion. There is no relationship between the right hemispheric lateralization in individual face discrimination and preschool levels of readings abilities. The observed difference in the right hemispheric lateralization obtained in the same population of children with two different paradigms measuring neural responses to faces indicates that the level of visual discrimination is a key factor to consider when making inferences about the development of hemispheric lateralization of face perception in the human brain.
Highlights
Neurotypical human adults have an astonishing ability to recognize the identity of people from their faces, often at a single glance and automatically
Coupling fast periodic visual stimulation (FPVS) with EEG, we found a robust neural index of individual face discrimination in preschool children, this response being much larger in the right as compared to the left hemisphere
This is the first electrophysiological evidence of a right hemispheric advantage in face perception in preschool children: previous studies relying on standard ERP measures, mainly of the face-sensitive N170 component, did not report significant right lateralization in children of various age-groups until late adolescence (Dundas et al, 2012, 2014; Kuefner, 2010; Taylor, Mills, Zhang, & Pang, 2010)
Summary
Neurotypical human adults have an astonishing ability to recognize the identity of people from their faces, often at a single glance and automatically. Damage to the ventral occipitotemporal cortex bilaterally or in the right hemisphere only may lead to prosopagnosia – a rare inability to recognize individual faces following brain damage (Meadows, 1974; Rossion, 2018 for recent review). A strong right hemispheric dominance for face-selective responses in the human ventral occipito-temporal cortex (VOTC) has been reported with intracerebral electrophysiological recordings (Jonas et al, 2016), with several regions in the right but not the left hemisphere being causally related to (individual) face perception defects (Jonas et al, 2012, 2015; Parvizi et al, 2012)
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