Hemispheric asymmetry and homotopy of resting state functional connectivity correlate with visuospatial abilities in school-age children
Hemispheric specialization of cognitive functions is a developmental process that shapes the brain from the gestational stage to adulthood. Functional connectivity of the resting brain has been largely used to infer the hemispheric organization of the spontaneous brain activity. In particular, two m...
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| Veröffentlicht in: | NeuroImage (Orlando, Fla.) Fla.), 2018-07, Vol.174, p.441-448 |
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| description | Hemispheric specialization of cognitive functions is a developmental process that shapes the brain from the gestational stage to adulthood. Functional connectivity of the resting brain has been largely used to infer the hemispheric organization of the spontaneous brain activity. In particular, two main properties have been largely explored throughout development: hemispheric asymmetry of functional connectivity and homotopic functional connectivity. However, their relation with specific cognitive processes typically associated with hemispheric specialization, such as visuospatial abilities, remains largely unexplored. Such relationships could be particularly relevant for the quest of developmental cognitive biomarkers in childhood, a significant maturation period of visuospatial abilities. Moreover, the relation between asymmetry and homotopy of brain functional connectivity is not well understood. We have examined these two properties in a sample of 60 typically developing children between 6 and 10 years of age, and explored their relation with visuospatial abilities. First, we identified a strong negative relation between homotopy and asymmetry across the brain. In addition, these properties showed areas in the posterior portion of the brain, with significant correlation with performance in visual memory and visual attention tasks. These results highlight the relevance of the hemispheric organization of spontaneous brain activity for developmental cognition, particularly for visuospatial abilities.
•Hemispheric asymmetry and homotopy of brain functional connectivity were evaluated.•Homotopy and asymmetry showed a widespread significant negative relation.•Asymmetry in temporo-occipital cortex correlates with visual attention performance.•Homotopy of occipital lobe connectivity correlates with visual memory performance. |
| doi_str_mv | 10.1016/j.neuroimage.2018.03.051 |
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First, we identified a strong negative relation between homotopy and asymmetry across the brain. In addition, these properties showed areas in the posterior portion of the brain, with significant correlation with performance in visual memory and visual attention tasks. These results highlight the relevance of the hemispheric organization of spontaneous brain activity for developmental cognition, particularly for visuospatial abilities.
•Hemispheric asymmetry and homotopy of brain functional connectivity were evaluated.•Homotopy and asymmetry showed a widespread significant negative relation.•Asymmetry in temporo-occipital cortex correlates with visual attention performance.•Homotopy of occipital lobe connectivity correlates with visual memory performance.</abstract><cop>United States</cop><pub>Elsevier Inc</pub><pmid>29596979</pmid><doi>10.1016/j.neuroimage.2018.03.051</doi><tpages>8</tpages></addata></record> |
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| subjects | Age Asymmetry Attention Biomarkers Brain Brain architecture Children Children & youth Cognition & reasoning Cognitive ability Cognitive development Development Dyslexia Grade repetition Hemispheric laterality Hemispheric specialization Identification Memory Neural networks Resting state functional connectivity Specialization Visual perception Visuospatial abilities |
| title | Hemispheric asymmetry and homotopy of resting state functional connectivity correlate with visuospatial abilities in school-age children |
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