Low-dimensional morphospace of topological motifs in human fMRI brain networks.
Accepted version
Peer-reviewed
Repository URI
Repository DOI
Change log
Authors
Abstract
We present a low-dimensional morphospace of fMRI brain networks, where axes are defined in a data-driven manner based on the network motifs. The morphospace allows us to identify the key variations in healthy fMRI networks in terms of their underlying motifs, and we observe that two principal components (PCs) can account for 97% of the motif variability. The first PC of the motif distribution is correlated with efficiency and inversely correlated with transitivity. Hence this axis approximately conforms to the well-known economical small-world trade-off between integration and segregation in brain networks. Finally, we show that the economical clustering generative model proposed by Vértes et al. (2012) can approximately reproduce the motif morphospace of the real fMRI brain networks, in contrast to other generative models. Overall, the motif morphospace provides a powerful way to visualize the relationships between network properties and to investigate generative or constraining factors in the formation of complex human brain functional networks.
Description
Keywords
Journal Title
Conference Name
Journal ISSN
2472-1751
Volume Title
Publisher
Publisher DOI
Sponsorship
MQ: Transforming Mental Health (MQ17-24 Vertes)