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Hemispheric lateralization of topological organization in structural brain networks
Caeyenberghs, Karen Leemans, Alexander
Caeyenberghs, Karen
Leemans, Alexander
Abstract
The study on structural brain asymmetries in healthy individuals plays an important role in our understanding of the factors that modulate cognitive specialization in the brain. Here, we used fiber tractography to reconstruct the left and right hemispheric networks of a large cohort of 346 healthy participants ( 20–86 years ) and performed a graph theoretical analysis to investigate this brain laterality from a network perspective. Findings revealed that the left hemisphere is significantly more “efficient” than the right hemisphere, whereas the right hemisphere showed higher values of “betweenness centrality” and “small-worldness.” In particular, left-hemispheric networks displayed increased nodal efficiency in brain regions related to language and motor actions, whereas the right hemisphere showed an increase in nodal efficiency in brain regions involved in memory and visuospatial attention. In addition, we found that hemispheric networks decrease in efficiency with age. Finally, we observed significant gender differences in measures of global connectivity. By analyzing the structural hemispheric brain networks, we have provided new insights into understanding the neuroanatomical basis of lateralized brain functions.
Keywords
diffusion tensor imaging, graph theoretical analysis, lateralization, development, gender, structural connectome
Date
2014
Type
Journal article
Journal
Human Brain Mapping
Book
Volume
35
Issue
9
Page Range
4944-4957
Article Number
ACU Department
Relation URI
Source URL
Event URL
Open Access Status
License
File Access
Controlled