Open Access
Stability of genetic and environmental influences on executive functions in midlife.
Author(s) -
Daniel E. Gustavson,
Matthew S. Panizzon,
Jeremy A. Elman,
Carol E. Franz,
Chandra A. Reynolds,
Kristen C. Jacobson,
Naomi P. Friedman,
Hong Xian,
Rosemary Toomey,
Michael J. Lyons,
William S. Kremen
Publication year - 2018
Publication title -
psychology and aging
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.468
H-Index - 151
eISSN - 1939-1498
pISSN - 0882-7974
DOI - 10.1037/pag0000230
Subject(s) - heritability , psychology , psycinfo , developmental psychology , twin study , neuropsychology , confirmatory factor analysis , working memory , correlation , genetic correlation , executive functions , genetic variation , cognition , structural equation modeling , demography , evolutionary biology , statistics , population , biology , medline , mathematics , geometry , neuroscience , sociology , biochemistry
Research on executive functions (EFs) has revealed that individual differences in general EF abilities are highly correlated across the first few decades of life, especially at the level of genetic influences. Our work has also provided evidence for substantial heritability of this Common EF factor in midlife, but it remains unclear whether individual differences in Common EFs continue to show strong stability in middle age. We examined data from 1,464 middle-aged twins from the Vietnam Era Twin Study of Aging, most of whom completed 7 neuropsychological measures of EFs at 2 points in middle age (M ages = 56 and 62). Confirmatory factor analysis indicated that individual differences in Common EF, a latent factor explaining variation in seven neuropsychological EF tasks, were highly correlated across this 6-year period (r = .97), and that the same genetic and environmental influences were operating across this interval (genetic and shared environmental correlations = 1.0, nonshared environment correlation = .95). Similar phenotypic and genetic stability was observed for a Working Memory (WM)-Specific latent factor, which explained additional variance in working memory span tasks not captured by Common EF (r = .98, genetic correlation = 1.0, nonshared environmental correlation = .88). There was a large mean-level performance decline in Common EF (d = -.60) but not WM-Specific (d = -.03). These results suggest that there is substantial decline in Common EF abilities across middle age but that individual differences are almost perfectly stable. (PsycINFO Database Record