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- Publisher
- Wiley
- Copyright
- © 2022 John Wiley & Sons Ltd.
- ISSN
- 1363-755X
- eISSN
- 1467-7687
- DOI
- 10.1111/desc.13217
- Publisher site
- See Article on Publisher Site
Abstract
Studies of hemispheric specialization have traditionally cast the left hemisphere as specialized for language and the right hemisphere for spatial function. Much of the supporting evidence for this separation of function comes from studies of healthy adults and those who have sustained lesions to the right or left hemisphere. However, we know little about the developmental origins of lateralization. Recent evidence suggests that the young brain represents language bilaterally, with 4–6‐year‐olds activating the left‐hemisphere regions known to support language in adults as well as homotopic regions in the right hemisphere. This bilateral pattern changes over development, converging on left‐hemispheric activation in late childhood. In the present study, we ask whether this same developmental trajectory is observed in a spatial task that is strongly right‐lateralized in adults—the line bisection (or “Landmark”) task. We examined fMRI activation among children ages 5–11 years as they were asked to judge which end of a bisected vertical line was longer. We found that young children showed bilateral activation, with activation in the same areas of the right hemisphere as has been shown among adults, as well as in the left hemisphere homotopic regions. By age 10, activation was right‐lateralized. This strongly resembles the developmental trajectory for language, moving from bilateral to lateralized activation. We discuss potential underlying mechanisms and suggest that understanding the development of lateralization for a range of cognitive functions can play a crucial role in understanding general principles of how and why the brain comes to lateralize certain functions.
Journal
Developmental Science – Wiley
Published: Jul 1, 2022
Keywords: brain lateralization; child development; fMRI; landmark task; line bisection task; parietal lobe; visual‐spatial functions