Genetic and Environmental Architecture of Processing Speed Across Midlife

Objective: Processing Speed (PS) is an important domain in cognitive aging that is characterized by multiple related but nonidentical abilities. Few studies have directly investigated the relationships among PS measures, and none have used genetically informed methods. In this study, we examined the...

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Bibliographic Details
Published in:Neuropsychology 2019-09, Vol.33 (6), p.862-871
Main Authors: Sanderson-Cimino, Mark, Panizzon, Matthew S., Elman, Jeremy A., Gustavson, Daniel E., Franz, Carol E., Reynolds, Chandra A., Toomey, Rosemary, Lyons, Michael J., Kremen, William S.
Format: Article
Language:English
Subjects:
Aging - genetics
Aging - psychology
Cognition
Cognitive Aging
Cognitive Aging - psychology
Cognitive Processing Speed
Environment
Genetics
Heritability
Human
Humans
Longitudinal Studies
Male
Middle Adulthood
Middle Aged
Phenotypes
Reaction Time
Stroop Test
Trail Making Test
Twins
Twins, Dizygotic
Twins, Monozygotic
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Summary:Objective: Processing Speed (PS) is an important domain in cognitive aging that is characterized by multiple related but nonidentical abilities. Few studies have directly investigated the relationships among PS measures, and none have used genetically informed methods. In this study, we examined the relationship between measures of PS at up to two time points during middle age. Method: We examined data from 1,262 middle-aged men when the sample was at a mean age of 56 and a mean age 62 years. Participants completed 6 measures of PS from three different cognitive tests. We used a genetically informative, confirmatory factor analytic approach to evaluate the phenotypic and genetic relationships cross-sectionally at both single time points and across time. Results: A higher-order common PS factor accounted for the covariance among three test-specific factors, and each test-specific factor accounted for the covariance between two observed measures. The general PS factor was explained primarily by genetic influences at both time points (aage562 = .75, aage622 = .64), and all test-specific factors were heritable (a2 range: .45 to .65). Factor loadings from the test-specific factors to the general PS factor varied from λ = .46 to .82. The model was stable over time, although there were differing rates of phenotypic change among latent factors (.20 SD to .44 SD). Cross-time genetic correlations were near unity for all latent factors. Conclusion: These results suggest that PS is highly heritable when considered at a latent variable level, and that there are different rates of change in tests of PS within this sample. General Scientific Summary Processing speed is an important cognitive ability that declines as people age. Although individual measures of speed were weakly related, a factor capturing their commonality was highly heritable and stable across 6 years. This study is clinically relevant because it suggests that combining measures of processing speed may more accurately represent one's cognitive ability.
ISSN:0894-4105
1931-1559
DOI:10.1037/neu0000551