Accrual of functional redundancy along the lifespan and its effects on cognition

Despite the necessity to understand how the brain endures the initial stages of age-associated cognitive decline, no brain mechanism has been quantitatively specified to date. The brain may withstand the effects of cognitive aging through redundancy, a design feature in engineered and biological sys...

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Bibliographic Details
Published in:NeuroImage (Orlando, Fla.) Fla.), 2021-04, Vol.229, p.117737-117737, Article 117737
Main Authors: Sadiq, Muhammad Usman, Langella, Stephanie, Giovanello, Kelly S., Mucha, Peter J., Dayan, Eran
Format: Article
Language:English
Subjects:
Age
Aging
Alzheimer's disease
Brain reserve
Cognition & reasoning
Cognitive ability
Executive function
Functional magnetic resonance imaging
Hypotheses
Life span
Network analysis
Neurodegeneration
Parkinson's disease
Redundancy
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Summary:Despite the necessity to understand how the brain endures the initial stages of age-associated cognitive decline, no brain mechanism has been quantitatively specified to date. The brain may withstand the effects of cognitive aging through redundancy, a design feature in engineered and biological systems, which entails the presence of substitute elements to protect it against failure. Here, we investigated the relationship between functional network redundancy and age over the human lifespan and their interaction with cognition, analyzing resting-state functional MRI images and cognitive measures from 579 subjects. Network-wide redundancy was significantly associated with age, showing a stronger link with age than other major topological measures, presenting a pattern of accumulation followed by old-age decline. Critically, redundancy significantly mediated the association between age and executive function, with lower anti-correlation between age and cognition in subjects with high redundancy. The results suggest that functional redundancy accrues throughout the lifespan, mitigating the effects of age on cognition.
ISSN:1053-8119
1095-9572
DOI:10.1016/j.neuroimage.2021.117737