Tensor network factorizations: Relationships between brain structural connectomes and traits
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Advanced brain imaging techniques make it possible to measure individuals' structural connectomes in large cohort studies non-invasively. The structural connectome is initially shaped by genetics and subsequently refined by the environment. It is extremely interesting to study relationships between structural connectomes and environment factors or human traits, such as substance use and cognition. Due to limitations in structural connectome recovery, previous studies largely focus on functional connectomes. Questions remain about how well structural connectomes can explain variance in different human traits. Using a state-of-the-art structural connectome processing pipeline and a novel dimensionality reduction technique applied to data from the Human Connectome Project (HCP), we show strong relationships between structural connectomes and various human traits. Our dimensionality reduction approach uses a tensor characterization of the connectome and relies on a generalization of principal components analysis. We analyze over 1100 scans for 1076 subjects from the HCP and the Sherbrooke test-retest data set, as well as 175 human traits that measure domains including cognition, substance use, motor, sensory and emotion. We find that structural connectomes are associated with many traits. Specifically, fluid intelligence, language comprehension, and motor skills are associated with increased cortical-cortical brain structural connectivity, while the use of alcohol, tobacco, and marijuana are associated with decreased cortical-cortical connectivity.
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