RT Journal Article
SR Electronic
T1 Unique Mapping of Structural and Functional Connectivity on Cognition
JF The Journal of Neuroscience
JO J. Neurosci.
FD Society for Neuroscience
SP 9658
OP 9667
DO 10.1523/JNEUROSCI.0900-18.2018
VO 38
IS 45
A1 Joelle Zimmermann
A1 John D. Griffiths
A1 Anthony R. McIntosh
YR 2018
UL http://www.jneurosci.org/content/38/45/9658.abstract
AB The unique mapping of structural brain connectivity (SC) and functional brain connectivity (FC) on cognition is currently not well understood. It is not clear whether cognition is mapped via a global connectome pattern or instead is underpinned by several sets of distributed connectivity patterns. Moreover, we also do not know whether the spatial distributions of SC and FC that underlie cognition are overlapping or distinct. Here, we study the relationship between SC and FC and an array of psychological tasks in 609 subjects (males, 269; females, 340) from the Human Connectome Project. We identified several sets of connections that each uniquely map onto cognitive function. We found a small number of distributed SCs and a larger set of corticocortical and corticosubcortical FCs that express this association. Importantly, the SC and FC each show unique and distinct patterns of variance across subjects as they relate to cognition. The results suggest that a complete understanding of connectome underpinnings of cognition calls for a combination of the two modalities.SIGNIFICANCE STATEMENT Structural connectivity (SC), the physical white-matter inter-regional pathways in the brain, and functional connectivity (FC), the temporal coactivations between the activity of the brain regions, have each been studied extensively. Little is known, however, about the distribution of variance in connections as they relate to cognition. Here, in a large sample of subjects (N = 609), we showed that two sets of brain–behavior patterns capture the correlations between SC and FC with a wide range of cognitive tasks, respectively. These brain—behavior patterns reveal distinct sets of connections within the SC and the FC network and provide new evidence that SC and FC each provide unique information for cognition.