Neuroanatomical Substrates of Executive Functions: Beyond Prefrontal Structures
- a University of California, San Francisco; Department of Neurology, Memory and Aging Center; San Francisco, CA
- b University of Colorado, Denver Anschutz School of Medicine; Departments of Neurosurgery and Neurology; Rocky Mountain Alzheimer’s Disease Center; Aurora, CO
- c University of California, Davis; Department of Neurology; Davis, CA
- Received 6 August 2015, Revised 29 February 2016, Accepted 3 March 2016, Available online 3 March 2016
Highlights
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- Executive functions (EF) are not synonymous with ‘frontal’ tasks.
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- Global atrophy was the only independent predictor of EF.
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- Frontal volumes do not predict EF when statistically isolated from global atrophy.
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- White matter metrics remain predictors of EF, independent of global atrophy.
Abstract
Executive
functions are often considered lynchpin “frontal lobe tasks”, despite
accumulating evidence that a broad network of anterior and posterior
brain structures supports them. Using a latent variable modeling
approach, we assessed whether prefrontal grey matter volumes
independently predict executive function performance when statistically
differentiated from global atrophy and individual non-frontal lobar
volume contributions. We further examined whether fronto-parietal white
matter microstructure underlies and independently contributes to
executive functions. We developed a latent variable model to decompose
lobar grey matter volumes into a global grey matter factor and specific
lobar volumes (i.e. prefrontal, parietal, temporal, occipital) that were
independent of global grey matter. We then added mean fractional
anisotropy (FA) for the superior longitudinal fasciculus (dorsal
portion), corpus callosum, and cingulum bundle (dorsal portion) to
models that included grey matter volumes related to cognitive variables
in previous analyses. Results suggested that the 2-factor model
(shifting/inhibition, updating/working memory) plus an information
processing speed factor best explained our executive function data in a
sample of 202 community dwelling older adults, and was selected as the
base measurement model for further analyses. Global grey matter was
related to the executive function and speed variables in all four lobar
models, but independent contributions of the frontal lobes were not
significant. In contrast, when assessing the effect of white matter
microstructure, cingulum FA made significant independent contributions
to all three executive function and speed variables and corpus callosum
FA was independently related to shifting/inhibition and speed. Findings
from the current study indicate that while prefrontal grey matter
volumes are significantly associated with cognitive neuroscience
measures of shifting/inhibition and working memory in healthy older
adults, they do not independently predict executive function
when statistically isolated from global atrophy and individual
non-frontal lobar volume contributions. In contrast, better
microstructure of fronto-parietal white matter, namely the corpus
callosum and cingulum, continued to predict executive functions after
accounting for global grey matter atrophy. These findings contribute to a
growing literature suggesting that prefrontal contributions to
executive functions cannot be viewed in isolation from more distributed
grey and white matter effects in a healthy older adult cohort.
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