Individual-specific features of brain systems identified with resting state functional correlations

Recent work has made important advances in describing the large-scale systems-level organization of human cortex by analyzing functional magnetic resonance imaging (fMRI) data averaged across groups of subjects. However, new findings have emerged suggesting that individuals’ cortical systems are top...

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Veröffentlicht in:	NeuroImage (Orlando, Fla.) Fla.), 2017-02, Vol.146, p.918-939
Hauptverfasser:	Gordon, Evan M., Laumann, Timothy O., Adeyemo, Babatunde, Gilmore, Adrian W., Nelson, Steven M., Dosenbach, Nico U.F., Petersen, Steven E.
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Sprache:	eng
Schlagworte:	Adult Brain mapping Brain systems Cerebral Cortex - physiology Cognitive ability Connectome Cortex Datasets Female fMRI Functional connectivity Functional magnetic resonance imaging Humans Individual variability Individuality Magnetic Resonance Imaging Male Neural networks Neural Pathways - physiology Neuroimaging Spatial distribution Young Adult
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creator	Gordon, Evan M. Laumann, Timothy O. Adeyemo, Babatunde Gilmore, Adrian W. Nelson, Steven M. Dosenbach, Nico U.F. Petersen, Steven E.
description	Recent work has made important advances in describing the large-scale systems-level organization of human cortex by analyzing functional magnetic resonance imaging (fMRI) data averaged across groups of subjects. However, new findings have emerged suggesting that individuals’ cortical systems are topologically complex, containing small but reliable features that cannot be observed in group-averaged datasets, due in part to variability in the position of such features along the cortical sheet. This previous work has reported only specific examples of these individual-specific system features; to date, such features have not been comprehensively described. Here we used fMRI to identify cortical system features in individual subjects within three large cross-subject datasets and one highly sampled within-subject dataset. We observed system features that have not been previously characterized, but 1) were reliably detected across many scanning sessions within a single individual, and 2) could be matched across many individuals. In total, we identified forty-three system features that did not match group-average systems, but that replicated across three independent datasets. We described the size and spatial distribution of each non-group feature. We further observed that some individuals were missing specific system features, suggesting individual differences in the system membership of cortical regions. Finally, we found that individual-specific system features could be used to increase subject-to-subject similarity. Together, this work identifies individual-specific features of human brain systems, thus providing a catalog of previously unobserved brain system features and laying the foundation for detailed examinations of brain connectivity in individuals. •Features of brain systems identified in individuals are absent from group averages.•These features were both reliable within a single subject and present across subjects.•These features were observed across three independent datasets.•Some subjects were “missing” system features, suggesting variable system connections.•Matching system features between individuals increased inter-individual similarity.
doi_str_mv	10.1016/j.neuroimage.2016.08.032
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However, new findings have emerged suggesting that individuals’ cortical systems are topologically complex, containing small but reliable features that cannot be observed in group-averaged datasets, due in part to variability in the position of such features along the cortical sheet. This previous work has reported only specific examples of these individual-specific system features; to date, such features have not been comprehensively described. Here we used fMRI to identify cortical system features in individual subjects within three large cross-subject datasets and one highly sampled within-subject dataset. We observed system features that have not been previously characterized, but 1) were reliably detected across many scanning sessions within a single individual, and 2) could be matched across many individuals. In total, we identified forty-three system features that did not match group-average systems, but that replicated across three independent datasets. We described the size and spatial distribution of each non-group feature. We further observed that some individuals were missing specific system features, suggesting individual differences in the system membership of cortical regions. Finally, we found that individual-specific system features could be used to increase subject-to-subject similarity. Together, this work identifies individual-specific features of human brain systems, thus providing a catalog of previously unobserved brain system features and laying the foundation for detailed examinations of brain connectivity in individuals. •Features of brain systems identified in individuals are absent from group averages.•These features were both reliable within a single subject and present across subjects.•These features were observed across three independent datasets.•Some subjects were “missing” system features, suggesting variable system connections.•Matching system features between individuals increased inter-individual similarity.</description><identifier>ISSN: 1053-8119</identifier><identifier>EISSN: 1095-9572</identifier><identifier>DOI: 10.1016/j.neuroimage.2016.08.032</identifier><identifier>PMID: 27640749</identifier><language>eng</language><publisher>United States: Elsevier Inc</publisher><subject>Adult ; Brain mapping ; Brain systems ; Cerebral Cortex - physiology ; Cognitive ability ; Connectome ; Cortex ; Datasets ; Female ; fMRI ; Functional connectivity ; Functional magnetic resonance imaging ; Humans ; Individual variability ; Individuality ; Magnetic Resonance Imaging ; Male ; Neural networks ; Neural Pathways - physiology ; Neuroimaging ; Spatial distribution ; Young Adult</subject><ispartof>NeuroImage (Orlando, Fla.), 2017-02, Vol.146, p.918-939</ispartof><rights>2016 Elsevier Inc.</rights><rights>Copyright © 2016 Elsevier Inc. 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We described the size and spatial distribution of each non-group feature. We further observed that some individuals were missing specific system features, suggesting individual differences in the system membership of cortical regions. Finally, we found that individual-specific system features could be used to increase subject-to-subject similarity. 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However, new findings have emerged suggesting that individuals’ cortical systems are topologically complex, containing small but reliable features that cannot be observed in group-averaged datasets, due in part to variability in the position of such features along the cortical sheet. This previous work has reported only specific examples of these individual-specific system features; to date, such features have not been comprehensively described. Here we used fMRI to identify cortical system features in individual subjects within three large cross-subject datasets and one highly sampled within-subject dataset. We observed system features that have not been previously characterized, but 1) were reliably detected across many scanning sessions within a single individual, and 2) could be matched across many individuals. In total, we identified forty-three system features that did not match group-average systems, but that replicated across three independent datasets. We described the size and spatial distribution of each non-group feature. We further observed that some individuals were missing specific system features, suggesting individual differences in the system membership of cortical regions. Finally, we found that individual-specific system features could be used to increase subject-to-subject similarity. Together, this work identifies individual-specific features of human brain systems, thus providing a catalog of previously unobserved brain system features and laying the foundation for detailed examinations of brain connectivity in individuals. •Features of brain systems identified in individuals are absent from group averages.•These features were both reliable within a single subject and present across subjects.•These features were observed across three independent datasets.•Some subjects were “missing” system features, suggesting variable system connections.•Matching system features between individuals increased inter-individual similarity.</abstract><cop>United States</cop><pub>Elsevier Inc</pub><pmid>27640749</pmid><doi>10.1016/j.neuroimage.2016.08.032</doi><tpages>22</tpages><oa>free_for_read</oa></addata></record>
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subjects	Adult Brain mapping Brain systems Cerebral Cortex - physiology Cognitive ability Connectome Cortex Datasets Female fMRI Functional connectivity Functional magnetic resonance imaging Humans Individual variability Individuality Magnetic Resonance Imaging Male Neural networks Neural Pathways - physiology Neuroimaging Spatial distribution Young Adult
title	Individual-specific features of brain systems identified with resting state functional correlations
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