Your search keyword '"Pines, Adam R."' showing total 2 results

1. Personalized functional brain network topography is associated with individual differences in youth cognition.

Author

Keller, Arielle S., Pines, Adam R., Shanmugan, Sheila, Sydnor, Valerie J., Cui, Zaixu, Bertolero, Maxwell A., Barzilay, Ran, Alexander-Bloch, Aaron F., Byington, Nora, Chen, Andrew, Conan, Gregory M., Davatzikos, Christos, Feczko, Eric, Hendrickson, Timothy J., Houghton, Audrey, Larsen, Bart, Li, Hongming, Miranda-Dominguez, Oscar, Roalf, David R., and Perrone, Anders

Subjects

LARGE-scale brain networks, INDIVIDUAL differences, COGNITION, TOPOGRAPHY, COGNITIVE ability

Abstract

Individual differences in cognition during childhood are associated with important social, physical, and mental health outcomes in adolescence and adulthood. Given that cortical surface arealization during development reflects the brain's functional prioritization, quantifying variation in the topography of functional brain networks across the developing cortex may provide insight regarding individual differences in cognition. We test this idea by defining personalized functional networks (PFNs) that account for interindividual heterogeneity in functional brain network topography in 9–10 year olds from the Adolescent Brain Cognitive Development℠ Study. Across matched discovery (n = 3525) and replication (n = 3447) samples, the total cortical representation of fronto-parietal PFNs positively correlates with general cognition. Cross-validated ridge regressions trained on PFN topography predict cognition in unseen data across domains, with prediction accuracy increasing along the cortex's sensorimotor-association organizational axis. These results establish that functional network topography heterogeneity is associated with individual differences in cognition before the critical transition into adolescence. Individual differences in cognitive abilities during childhood are associated with important outcomes in adolescence. Here, the authors show associations between youth cognition and individual-specific patterns of cortical brain network organization. [ABSTRACT FROM AUTHOR]

Published

2023

2. Linking Individual Differences in Personalized Functional Network Topography to Psychopathology in Youth.

Author

Cui, Zaixu, Pines, Adam R., Larsen, Bart, Sydnor, Valerie J., Li, Hongming, Adebimpe, Azeez, Alexander-Bloch, Aaron F., Bassett, Dani S., Bertolero, Max, Calkins, Monica E., Davatzikos, Christos, Fair, Damien A., Gur, Ruben C., Gur, Raquel E., Moore, Tyler M., Shanmugan, Sheila, Shinohara, Russell T., Vogel, Jacob W., Xia, Cedric H., and Fan, Yong

Subjects

*LARGE-scale brain networks, *FUNCTIONAL magnetic resonance imaging, *INDIVIDUAL differences, *CONFIRMATORY factor analysis, *MULTITRAIT multimethod techniques, *TOPOGRAPHY, *PARTIAL least squares regression

Abstract

The spatial layout of large-scale functional brain networks differs between individuals and is particularly variable in the association cortex, implicated in a broad range of psychiatric disorders. However, it remains unknown whether this variation in functional topography is related to major dimensions of psychopathology in youth. The authors studied 790 youths ages 8 to 23 years who had 27 minutes of high-quality functional magnetic resonance imaging data as part of the Philadelphia Neurodevelopmental Cohort. Four correlated dimensions were estimated using a confirmatory correlated traits factor analysis on 112 item-level clinical symptoms, and one overall psychopathology factor with 4 orthogonal dimensions were extracted using a confirmatory factor analysis. Spatially regularized nonnegative matrix factorization was used to identify 17 individual-specific functional networks for each participant. Partial least square regression with split-half cross-validation was conducted to evaluate to what extent the topography of personalized functional networks encodes major dimensions of psychopathology. Personalized functional network topography significantly predicted unseen individuals' major dimensions of psychopathology, including fear, psychosis, externalizing, and anxious-misery. Reduced representation of association networks was among the most important features for the prediction of all 4 dimensions. Further analysis revealed that personalized functional network topography predicted overall psychopathology (r = 0.16, permutation testing p <.001), which drove prediction of the 4 correlated dimensions. These results suggest that individual differences in functional network topography in association networks is related to overall psychopathology in youth. Such results underscore the importance of considering functional neuroanatomy for personalized diagnostics and therapeutics in psychiatry. [ABSTRACT FROM AUTHOR]

Published

2022