Examining the neurostructural architecture of intelligence: The Lothian Birth Cohort 1936 Study

Danielle Page (Lead Author), Colin Buchanan, Joanna Moodie, Mathew A. Harris, Adele Taylor, Maria C Valdés Hernández, Susana Muñoz Maniega, Janie Corley, Mark E Bastin, Joanna M. Wardlaw, Tom Russ, Ian J Deary, Simon R. Cox*

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

Abstract / Description of output

Examining underlying neurostructural correlates of specific cognitive abilities is practically and theoretically complicated by the existence of the positive manifold (all cognitive tests positively correlate): if a brain structure is associated with a cognitive task, how much of this is uniquely related to the cognitive domain, and how much is due to covariance with all other tests across domains (captured by general cognitive functioning, also known as general intelligence, or ‘g’)? We quantitatively address this question by examining associations between brain structural and diffusion MRI measures (global tissue volumes, white matter hyperintensities, global white matter diffusion fractional anisotropy and mean diffusivity, and FreeSurfer processed vertex-wise cortical volumes, smoothed at 20mm fwhm) with g and cognitive domains (processing speed, crystallised ability, memory, visuospatial ability). The cognitive domains were modelled using confirmatory factor analysis to derive both hierarchical and bifactor solutions using 13 cognitive tests in 697 participants from the Lothian Birth Cohort 1936 study (mean age 72.5 years; SD=0.7). Associations between the extracted cognitive factor scores for each domain and g were computed for each brain measure covarying for age, sex and intracranial volume, and corrected for false discovery rate.

There were a range of significant associations between cognitive domains and global MRI brain structural measures (r range 0.008 to 0.269, p<.05). Regions implicated by vertex-wise regional cortical volume included a widespread number of medial and lateral areas of the frontal, temporal and parietal lobes. However, at both global and regional level, much of the domain-MRI associations were shared (statistically accounted for by g). Removing g-related variance from cognitive domains attenuated association magnitudes with global brain MRI measures by 27.9-59.7% (M = 46.2%), with only processing speed retaining all significant associations. At the regional cortical level, g appeared to account for the majority (range 22.1-88.4%; M = 52.8% across cognitive domains) of regional domain-specific associations. Crystallised and memory domains had almost no unique cortical correlates, whereas processing speed and visuospatial ability retained limited cortical volumetric associations. The greatest spatial overlaps across cognitive domains (as denoted by g) were present in the medial and lateral temporal, lateral parietal and lateral frontal areas.
Original languageEnglish
Pages (from-to)269-286
JournalCortex
Volume178
Early online date26 Jun 2024
DOIs
Publication statusPublished - Sept 2024

Keywords / Materials (for Non-textual outputs)

  • cognitive ability
  • general intelligence
  • brain MRI
  • cortical volume
  • white matter

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