Complementary topology of maintenance and manipulation brain networks in working memory.

dc.contributor.author

Davis, SW

dc.contributor.author

Crowell, CA

dc.contributor.author

Beynel, L

dc.contributor.author

Deng, L

dc.contributor.author

Lakhlani, D

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Hilbig, SA

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Lim, W

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Nguyen, D

dc.contributor.author

Peterchev, AV

dc.contributor.author

Luber, BM

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Lisanby, SH

dc.contributor.author

Appelbaum, LG

dc.contributor.author

Cabeza, R

dc.date.accessioned

2020-06-01T16:19:18Z

dc.date.available

2020-06-01T16:19:18Z

dc.date.issued

2018-12-13

dc.date.updated

2020-06-01T16:19:16Z

dc.description.abstract

Working memory (WM) is assumed to consist of a process that sustains memory representations in an active state (maintenance) and a process that operates on these activated representations (manipulation). We examined evidence for two distinct, concurrent cognitive functions supporting maintenance and manipulation abilities by testing brain activity as participants performed a WM alphabetization task. Maintenance was investigated by varying the number of letters held in WM and manipulation by varying the number of moves required to sort the list alphabetically. We found that both maintenance and manipulation demand had significant effects on behavior that were associated with different cortical regions: maintenance was associated with bilateral prefrontal and left parietal cortex, and manipulation with right parietal activity, a link that is consistent with the role of parietal cortex in symbolic computations. Both structural and functional architecture of these systems suggested that these cognitive functions are supported by two dissociable brain networks. Critically, maintenance and manipulation functional networks became increasingly segregated with increasing demand, an effect that was positively associated with individual WM ability. These results provide evidence that network segregation may act as a protective mechanism to enable successful performance under increasing WM demand.

dc.identifier

10.1038/s41598-018-35887-2

dc.identifier.issn

2045-2322

dc.identifier.issn

2045-2322

dc.identifier.uri

https://hdl.handle.net/10161/20732

dc.language

eng

dc.publisher

Springer Science and Business Media LLC

dc.relation.ispartof

Scientific reports

dc.relation.isversionof

10.1038/s41598-018-35887-2

dc.subject

Parietal Lobe

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Nerve Net

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Humans

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Brain Mapping

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Memory, Short-Term

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Adolescent

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Adult

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Female

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Male

dc.title

Complementary topology of maintenance and manipulation brain networks in working memory.

dc.type

Journal article

duke.contributor.orcid

Davis, SW|0000-0002-5943-0756

duke.contributor.orcid

Peterchev, AV|0000-0002-4385-065X

duke.contributor.orcid

Lisanby, SH|0000-0003-2037-6470

duke.contributor.orcid

Appelbaum, LG|0000-0002-3184-6725

duke.contributor.orcid

Cabeza, R|0000-0001-7999-1182

pubs.begin-page

17827

pubs.issue

1

pubs.organisational-group

School of Medicine

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Psychology and Neuroscience

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Duke Science & Society

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Duke Institute for Brain Sciences

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Psychiatry & Behavioral Sciences, Brain Stimulation and Neurophysiology

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Duke

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Trinity College of Arts & Sciences

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Initiatives

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Institutes and Provost's Academic Units

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University Institutes and Centers

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Psychiatry & Behavioral Sciences

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Clinical Science Departments

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Neurology, Behavioral Neurology

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Center for Cognitive Neuroscience

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Neurology

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Electrical and Computer Engineering

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Neurosurgery

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Pratt School of Engineering

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Center for Population Health & Aging

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Duke-UNC Center for Brain Imaging and Analysis

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Psychiatry & Behavioral Sciences, Geriatric Behavioral Health

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Duke Population Research Institute

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Sanford School of Public Policy

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Institutes and Centers

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Faculty

pubs.publication-status

Published

pubs.volume

8

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