Social and leisure activity are associated with attenuated cortical loss in behavioral variant frontotemporal degeneration

•Social and leisure activity may contribute to mitigation of cortical loss in bvFTD.•This relationship was found in regions important for social cognition.•Findings provide new evidence in burgeoning non-AD cognitive reserve literature. Behavioral variant frontotemporal degeneration (bvFTD) is clini...

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Veröffentlicht in:NeuroImage clinical 2021-01, Vol.30, p.102629, Article 102629
Hauptverfasser: Kinney, Nikolas G., Bove, Jessica, Phillips, Jeffrey S., Cousins, Katheryn A.Q, Olm, Christopher A., Wakeman, Daniel G., McMillan, Corey T., Massimo, Lauren
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Sprache:eng
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Zusammenfassung:•Social and leisure activity may contribute to mitigation of cortical loss in bvFTD.•This relationship was found in regions important for social cognition.•Findings provide new evidence in burgeoning non-AD cognitive reserve literature. Behavioral variant frontotemporal degeneration (bvFTD) is clinically characterized by progressive decline in social and executive domains. Previous work suggests that early lifestyle factors such as education and occupational attainment may relate to structural integrity and moderate the rate of cognitive decline in bvFTD, but the role of other cognitively stimulating activities is understudied. We sought to investigate the effect of such activities on cortical thickness (CT) in bvFTD. bvFTD patients (n = 31) completed a baseline MRI scan, and informants for the patients completed the Lifetime of Experiences Questionnaire (LEQ), which measures specific activities considered to be undertaken primarily within one particular life phase, such as education (young-life), occupation (mid-life), and social/leisure activity (late-life). At baseline, linear models assessed the effect of LEQ scores from each life phase on regional CT. A subset (n = 19) of patients completed longitudinal MRI, and to evaluate the association of LEQ with longitudinal rates of CT decline, we derived individualized slopes of decline using linear mixed effects models and these were related to LEQ scores from each life phase. At baseline, a higher late-life LEQ score was associated with less atrophy in left superior and inferior anterior temporal regions as well as right middle temporal gyrus. Longitudinally, we observed that higher late-life LEQ scores were associated with an attenuated rate of CT loss in insular cortex. Late-life LEQ score was positively associated with both relatively preserved CT early in bvFTD and a slower rate of cortical loss in regions important for social functioning. These findings suggest that social and leisure activities may contribute to a form of resilience against pathologic effects of disease.
ISSN:2213-1582
2213-1582
DOI:10.1016/j.nicl.2021.102629