Literature DB >> 29317306

Double dissociation of structure-function relationships in memory and fluid intelligence observed with magnetic resonance elastography.

Curtis L Johnson1, Hillary Schwarb2, Kevin M Horecka3, Matthew D J McGarry4, Charles H Hillman5, Arthur F Kramer6, Neal J Cohen3, Aron K Barbey7.   

Abstract

Brain tissue mechanical properties, measured in vivo with magnetic resonance elastography (MRE), have proven to be sensitive metrics of neural tissue integrity. Recently, our group has reported on the positive relationship between viscoelasticity of the hippocampus and performance on a relational memory task in healthy young adults, which highlighted the potential of sensitive MRE measures for studying brain health and its relation to cognitive function; however, structure-function relationships outside of the hippocampus have not yet been explored. In this study, we examined the relationships between viscoelasticity of both the hippocampus and the orbitofrontal cortex and performance on behavioral assessments of relational memory and fluid intelligence. In a sample of healthy, young adults (N = 53), there was a significant, positive relationship between orbitofrontal cortex viscoelasticity and fluid intelligence performance (r = 0.42; p = .002). This finding is consistent with the previously reported relationship between hippocampal viscoelasticity and relational memory performance (r = 0.41; p = .002). Further, a significant double dissociation between the orbitofrontal-fluid intelligence relationship and the hippocampal-relational memory relationship was observed. These data support the specificity of regional brain MRE measures in support of separable cognitive functions. This report of a structure-function relationship observed with MRE beyond the hippocampus suggests a future role for MRE as a sensitive neuroimaging technique for brain mapping.
Copyright © 2018 Elsevier Inc. All rights reserved.

Entities:  

Keywords:  Fluid intelligence; Hippocampus; Magnetic resonance elastography; Orbitofrontal cortex; Relational memory

Mesh:

Year:  2018        PMID: 29317306      PMCID: PMC5857428          DOI: 10.1016/j.neuroimage.2018.01.007

Source DB:  PubMed          Journal:  Neuroimage        ISSN: 1053-8119            Impact factor:   6.556


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