Cortical recycling in high-level visual cortex during childhood development

Nordt, Marisa; Gomez, Jesse; Natu, Vaidehi; Rezai, Alex A.; Finzi, Dawn; Kular, Holly; Grill-Spector, Kalanit

doi:10.1038/s41562-021-01141-5

Cited by 42 publications

(65 citation statements)

References 61 publications

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“…The RH dominance for face-selective neural responses is present from the start of the study and, while impressive changes occur at the VWFA location for words, is remarkably stable across testing sessions in full agreement with a fair evaluation of the adult study of Dehaene et al (2010). Based on these observations, Dehaene-Lambertz et al (2018) suggest that new visual categories, such as letter strings, invade only weakly specified cortex, while leaving face-selective cortical responses unchanged (see also the most recent fMRI study of Nordt et al, 2021). Unless one can demonstrate that further expansions of category-selective responses to faces at later developmental stages are specifically blocked in the LH, increasing RH dominance of face recognition even further, such findings speak directly against even a weak version of the reading-LNC hypothesis.…”

Section: Summary Of Children Studiessupporting

confidence: 74%

“…While the authors interpreted this observation in favor of the lateralized neural competition hypothesis, from our understanding, it actually goes against the view that the emergence of LH lateralization for words would increase RH lateralization for faces. Finally, in another fMRI study using a classifier approach, there was no relationship between the word classification in the left VOTC and the face classification in the right VOTC, or between their laterality indexes, suggesting independent development of category-selective neural responses to faces and written words in this region (Nordt et al 2021).…”

Section: Correlations Between Face-and Word-selective Neural Responsesmentioning

confidence: 89%

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Is human face recognition lateralized to the right hemisphere due to neural competition with left-lateralized visual word recognition? A critical review

Rossion

Lochy

2021

Brain Struct Funct

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The right hemispheric lateralization of face recognition, which is well documented and appears to be specific to the human species, remains a scientific mystery. According to a long-standing view, the evolution of language, which is typically substantiated in the left hemisphere, competes with the cortical space in that hemisphere available for visuospatial processes, including face recognition. Over the last decade, a specific hypothesis derived from this view according to which neural competition in the left ventral occipito-temporal cortex with selective representations of letter strings causes right hemispheric lateralization of face recognition, has generated considerable interest and research in the scientific community. Here, a systematic review of studies performed in various populations (infants, children, literate and illiterate adults, left-handed adults) and methodologies (behavior, lesion studies, (intra)electroencephalography, neuroimaging) offers little if any support for this reading lateralized neural competition hypothesis. Specifically, right-lateralized face-selective neural activity already emerges at a few months of age, well before reading acquisition. Moreover, consistent evidence of face recognition performance and its right hemispheric lateralization being modulated by literacy level during development or at adulthood is lacking. Given the absence of solid alternative hypotheses and the key role of neural competition in the sensory-motor cortices for selectivity of representations, learning, and plasticity, a revised language-related neural competition hypothesis for the right hemispheric lateralization of face recognition should be further explored in future research, albeit with substantial conceptual clarification and advances in methodological rigor.

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Section: Summary Of Children Studiessupporting

confidence: 74%

Section: Correlations Between Face-and Word-selective Neural Responsesmentioning

confidence: 89%

Is human face recognition lateralized to the right hemisphere due to neural competition with left-lateralized visual word recognition? A critical review

Rossion

Lochy

2021

Brain Struct Funct

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“…These data have prompted a reexamination of the neuronal recycling hypothesis by suggesting that word-selective responses do not compete for cortical territory with other visual categories. However, a recent longitudinal study revealed that limb-selective regions in VOTC lose cortical territory to word-selective regions over the course of elementary school 18 .…”

Section: Figurementioning

confidence: 99%

Reading instruction causes changes in category-selective visual cortex

Yeatman

Caffarra

Clark

et al. 2022

Preprint

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Education sculpts specialized neural circuits for skills like reading that are critical to success in modern society but were not anticipated by the selective pressures of evolution. Does the emergence of brain regions that selectively process novel visual stimuli like words occur at the expense of cortical representations of other stimulus categories like faces and objects? To answer this question we designed a randomized controlled trial where pre-literate children (five years of age) were randomly assigned to intervention programs that either taught reading skills (Letter Intervention) or oral language comprehension skills (Language Intervention). Magnetoencephalography (MEG) data collected before and after the interventions revealed that being assigned to the Letter versus Language Intervention induced different patterns of changes in category selective responses in high-level visual cortex. We found moderate support for the notion that words compete with other objects for cortical territory as children become attuned to this new class of visual stimuli. How these changes play out over a longer timescale is still unclear but, based on these data, we can surmise that high-level visual cortex undergoes rapid changes as children enter school and begin establishing new skills like literacy.

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“…Particularly, we found two distinct visual clusters along the medial-lateral axis, which captured the central-peripheral organization of ventral visual system (Grill-Spector and Weiner, 2014;Hasson et al, 2002;Levy et al, 2001;Wiesel, 1982). Apart from the border of two medial-lateral clusters, the lateral area become more face-selective while the medial area is specialized in processing scene and buildings later in life (Nordt et al, 2021), and thereby our observation suggests the innate scaffold already established at birth for subsequent experience-dependent modification in ventral visual cortex Livingstone, 2021, 2017). Furthermore, the connections among the ventral visual cortex have developed during this early stage.…”

Section: Discussionmentioning

confidence: 69%

“…Previous studies reported the coupling between cortical myelination and face processing, suggesting an experience-dependent development of visual cortical microstructure in later life (e.g. 5-12 years old; Nordt et al, 2021). We found that in the early stage, CM primarily correlated with the prenatal time (GA at birth) but not the extrinsic experience, suggesting that the early cortical myelination might be determined the endogenic growth.…”

Section: Discussionmentioning

confidence: 88%

Development of visual cortex in human neonates are selectively modified by postnatal experience

Liu

et al. 2022

Preprint

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Experience-dependent cortical plasticity is a pivotal process of human brain development and essential for the formation of most cognitive functions. Although studies found that early visual experience could influence the endogenous development of visual cortex in animals, little is known about such impact on human infants. Using the multi-modal MRI data from developing human connectome project, we revealed the early structural and functional maps in the ventral visual cortex and their development across the first month of age. Particularly, we found the postnatal experience could modulate both the cortical morphology in ventral visual cortex and the functional circuit between bilateral primary visual cortices. But the cortical myelination and overall functional circuits of ventral cortex, particularly that of the high-order visual cortex, developed without significant influence of postnatal experience in such early period. These experience-dependent cortical properties were further validated in the preterm-born infants who have longer postnatal time but immature cortical development at birth. The results confirmed that the development of cortical thickness was dominated by the postnatal experience but the functional circuit might be determined by the overall maturity of visual cortex. These data suggest in human newborns that early postnatal experience shapes the structural and functional development of the visual cortex in selective and organized pattern.

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Cortical recycling in high-level visual cortex during childhood development

Cited by 42 publications

References 61 publications

Is human face recognition lateralized to the right hemisphere due to neural competition with left-lateralized visual word recognition? A critical review

Is human face recognition lateralized to the right hemisphere due to neural competition with left-lateralized visual word recognition? A critical review

Reading instruction causes changes in category-selective visual cortex

Development of visual cortex in human neonates are selectively modified by postnatal experience

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