Cortical iron mediates age-related decline in fluid cognition.

dc.contributor.author

Howard, Cortney M

dc.contributor.author

Jain, Shivangi

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Cook, Angela D

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Packard, Lauren E

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Mullin, Hollie A

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Chen, Nan-Kuei

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Liu, Chunlei

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Song, Allen W

dc.contributor.author

Madden, David J

dc.date.accessioned

2022-10-03T20:49:00Z

dc.date.available

2022-10-03T20:49:00Z

dc.date.issued

2022-02

dc.date.updated

2022-10-03T20:48:58Z

dc.description.abstract

Brain iron dyshomeostasis disrupts various critical cellular functions, and age-related iron accumulation may contribute to deficient neurotransmission and cell death. While recent studies have linked excessive brain iron to cognitive function in the context of neurodegenerative disease, little is known regarding the role of brain iron accumulation in cognitive aging in healthy adults. Further, previous studies have focused primarily on deep gray matter regions, where the level of iron deposition is highest. However, recent evidence suggests that cortical iron may also contribute to cognitive deficit and neurodegenerative disease. Here, we used quantitative susceptibility mapping (QSM) to measure brain iron in 67 healthy participants 18-78 years of age. Speed-dependent (fluid) cognition was assessed from a battery of 12 psychometric and computer-based tests. From voxelwise QSM analyses, we found that QSM susceptibility values were negatively associated with fluid cognition in the right inferior temporal gyrus, bilateral putamen, posterior cingulate gyrus, motor, and premotor cortices. Mediation analysis indicated that susceptibility in the right inferior temporal gyrus was a significant mediator of the relation between age and fluid cognition, and similar effects were evident for the left inferior temporal gyrus at a lower statistical threshold. Additionally, age and right inferior temporal gyrus susceptibility interacted to predict fluid cognition, such that brain iron was negatively associated with a cognitive decline for adults over 45 years of age. These findings suggest that iron may have a mediating role in cognitive decline and may be an early biomarker of neurodegenerative disease.

dc.identifier.issn

1065-9471

dc.identifier.issn

1097-0193

dc.identifier.uri

https://hdl.handle.net/10161/26047

dc.language

eng

dc.publisher

Wiley

dc.relation.ispartof

Human brain mapping

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10.1002/hbm.25706

dc.subject

Putamen

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Cerebral Cortex

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Humans

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Iron

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Magnetic Resonance Imaging

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Intelligence

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Aging

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Adolescent

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Adult

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Aged

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Middle Aged

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Female

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Male

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Young Adult

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Cognitive Dysfunction

dc.title

Cortical iron mediates age-related decline in fluid cognition.

dc.type

Journal article

duke.contributor.orcid

Howard, Cortney M|0000-0003-4870-7104

duke.contributor.orcid

Madden, David J|0000-0003-2815-6552

pubs.begin-page

1047

pubs.end-page

1060

pubs.issue

3

pubs.organisational-group

Duke

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Pratt School of Engineering

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School of Medicine

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Trinity College of Arts & Sciences

pubs.organisational-group

Student

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Basic Science Departments

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Clinical Science Departments

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Neurobiology

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Biomedical Engineering

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Psychiatry & Behavioral Sciences

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Radiology

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Psychology & Neuroscience

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Institutes and Provost's Academic Units

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University Institutes and Centers

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Duke Institute for Brain Sciences

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Center for Cognitive Neuroscience

pubs.organisational-group

Psychiatry & Behavioral Sciences, Behavioral Medicine & Neurosciences

pubs.publication-status

Published

pubs.volume

43

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