TY - JOUR
T1 - Resting-state MRI functional connectivity as a neural correlate of multidomain lifestyle adherence in older adults at risk for Alzheimer’s disease
AU - for the PREVENT-AD Research Group
AU - Ai, Meishan
AU - Morris, Timothy P.
AU - Zhang, Jiahe
AU - de la Colina, Adrián Noriega
AU - Tremblay-Mercier, Jennifer
AU - Villeneuve, Sylvia
AU - Whitfield-Gabrieli, Susan
AU - Kramer, Arthur F.
AU - Geddes, Maiya R.
AU - Aisen, Paul
AU - Anthal, Elena
AU - Appleby, Melissa
AU - Bellec, Pierre
AU - Benbouhoud, Fatiha
AU - Bohbot, Véronique
AU - Brandt, Jason
AU - Breitner, John C.S.
AU - Brunelle, Céline
AU - Chakravarty, Mallar
AU - Cheewakriengkrai, Laksanun
AU - Collins, Louis
AU - Couture, Doris
AU - Craft, Suzanne
AU - Dadar, Mahsa
AU - Daoust, Leslie Ann
AU - Das, Samir
AU - Dauar-Tedeschi, Marina
AU - Dea, Doris
AU - Desrochers, Nicole
AU - Dubuc, Sylvie
AU - Duclair, Guerda
AU - Dufour, Marianne
AU - Eisenberg, Mark
AU - El-Khoury, Rana
AU - Etienne, Pierre
AU - Evans, Alan
AU - Faubert, Anne Marie
AU - Ferdinand, Fabiola
AU - Fonov, Vladimir
AU - Fontaine, David
AU - Francoeur, Renaud
AU - Frenette, Joanne
AU - Gagné, Guylaine
AU - Gauthier, Serge
AU - Gervais, Valérie
AU - Giles, Renuka
AU - Gonneaud, Julie
AU - Gordon, Renee
AU - Greco, Claudia
AU - Leoutsakos, Jeannie Marie
N1 - Publisher Copyright:
© 2023, The Author(s).
PY - 2023/12
Y1 - 2023/12
N2 - Prior research has demonstrated the importance of a healthy lifestyle to protect brain health and diminish dementia risk in later life. While a multidomain lifestyle provides an ecological perspective to voluntary engagement, its association with brain health is still under-investigated. Therefore, understanding the neural mechanisms underlying multidomain lifestyle engagement, particularly in older adults at risk for Alzheimer’s disease (AD), gives valuable insights into providing lifestyle advice and intervention for those in need. The current study included 139 healthy older adults with familial risk for AD from the Prevent-AD longitudinal aging cohort. Self-reported exercise engagement, cognitive activity engagement, healthy diet adherence, and social activity engagement were included to examine potential phenotypes of an individual’s lifestyle adherence. Two adherence profiles were discovered using data-driven clustering methodology [i.e., Adherence to healthy lifestyle (AL) group and Non-adherence to healthy lifestyle group]. Resting-state functional connectivity matrices and grey matter brain features obtained from magnetic resonance imaging were used to classify the two groups using a support vector machine (SVM). The SVM classifier was 75% accurate in separating groups. The features that show consistently high importance to the classification model were functional connectivity mainly between nodes located in different prior-defined functional networks. Most nodes were located in the default mode network, dorsal attention network, and visual network. Our results provide preliminary evidence of neurobiological characteristics underlying multidomain healthy lifestyle choices.
AB - Prior research has demonstrated the importance of a healthy lifestyle to protect brain health and diminish dementia risk in later life. While a multidomain lifestyle provides an ecological perspective to voluntary engagement, its association with brain health is still under-investigated. Therefore, understanding the neural mechanisms underlying multidomain lifestyle engagement, particularly in older adults at risk for Alzheimer’s disease (AD), gives valuable insights into providing lifestyle advice and intervention for those in need. The current study included 139 healthy older adults with familial risk for AD from the Prevent-AD longitudinal aging cohort. Self-reported exercise engagement, cognitive activity engagement, healthy diet adherence, and social activity engagement were included to examine potential phenotypes of an individual’s lifestyle adherence. Two adherence profiles were discovered using data-driven clustering methodology [i.e., Adherence to healthy lifestyle (AL) group and Non-adherence to healthy lifestyle group]. Resting-state functional connectivity matrices and grey matter brain features obtained from magnetic resonance imaging were used to classify the two groups using a support vector machine (SVM). The SVM classifier was 75% accurate in separating groups. The features that show consistently high importance to the classification model were functional connectivity mainly between nodes located in different prior-defined functional networks. Most nodes were located in the default mode network, dorsal attention network, and visual network. Our results provide preliminary evidence of neurobiological characteristics underlying multidomain healthy lifestyle choices.
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U2 - 10.1038/s41598-023-32714-1
DO - 10.1038/s41598-023-32714-1
M3 - Article
C2 - 37160915
AN - SCOPUS:85159140153
SN - 2045-2322
VL - 13
JO - Scientific reports
JF - Scientific reports
IS - 1
M1 - 7487
ER -