A radiomics-based brain network in T1 images: construction, attributes, and applications

Abstract T1 image is a widely collected imaging sequence in various neuroimaging datasets, but it is rarely used to construct an individual-level brain network. In this study, a novel individualized radiomics-based structural similarity network was proposed from T1 images. In detail, it used voxel-b...

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Veröffentlicht in:	Cerebral cortex (New York, N.Y. 1991) N.Y. 1991), 2024-01, Vol.34 (2)
Hauptverfasser:	Liu, Han, Ma, Zhe, Wei, Lijiang, Chen, Zhenpeng, Peng, Yun, Jiao, Zhicheng, Bai, Harrison, Jing, Bin
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Sprache:	eng
Schlagworte:	Brain - diagnostic imaging Gray Matter - diagnostic imaging Neuroimaging Radiomics Reproducibility of Results
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container_title	Cerebral cortex (New York, N.Y. 1991)
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creator	Liu, Han Ma, Zhe Wei, Lijiang Chen, Zhenpeng Peng, Yun Jiao, Zhicheng Bai, Harrison Jing, Bin
description	Abstract T1 image is a widely collected imaging sequence in various neuroimaging datasets, but it is rarely used to construct an individual-level brain network. In this study, a novel individualized radiomics-based structural similarity network was proposed from T1 images. In detail, it used voxel-based morphometry to obtain the preprocessed gray matter images, and radiomic features were then extracted on each region of interest in Brainnetome atlas, and an individualized radiomics-based structural similarity network was finally built using the correlational values of radiomic features between any pair of regions of interest. After that, the network characteristics of individualized radiomics-based structural similarity network were assessed, including graph theory attributes, test–retest reliability, and individual identification ability (fingerprinting). At last, two representative applications for individualized radiomics-based structural similarity network, namely mild cognitive impairment subtype discrimination and fluid intelligence prediction, were exemplified and compared with some other networks on large open-source datasets. The results revealed that the individualized radiomics-based structural similarity network displays remarkable network characteristics and exhibits advantageous performances in mild cognitive impairment subtype discrimination and fluid intelligence prediction. In summary, the individualized radiomics-based structural similarity network provides a distinctive, reliable, and informative individualized structural brain network, which can be combined with other networks such as resting-state functional connectivity for various phenotypic and clinical applications.
doi_str_mv	10.1093/cercor/bhae016
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In this study, a novel individualized radiomics-based structural similarity network was proposed from T1 images. In detail, it used voxel-based morphometry to obtain the preprocessed gray matter images, and radiomic features were then extracted on each region of interest in Brainnetome atlas, and an individualized radiomics-based structural similarity network was finally built using the correlational values of radiomic features between any pair of regions of interest. After that, the network characteristics of individualized radiomics-based structural similarity network were assessed, including graph theory attributes, test–retest reliability, and individual identification ability (fingerprinting). At last, two representative applications for individualized radiomics-based structural similarity network, namely mild cognitive impairment subtype discrimination and fluid intelligence prediction, were exemplified and compared with some other networks on large open-source datasets. The results revealed that the individualized radiomics-based structural similarity network displays remarkable network characteristics and exhibits advantageous performances in mild cognitive impairment subtype discrimination and fluid intelligence prediction. In summary, the individualized radiomics-based structural similarity network provides a distinctive, reliable, and informative individualized structural brain network, which can be combined with other networks such as resting-state functional connectivity for various phenotypic and clinical applications.</description><identifier>ISSN: 1047-3211</identifier><identifier>EISSN: 1460-2199</identifier><identifier>DOI: 10.1093/cercor/bhae016</identifier><identifier>PMID: 38300184</identifier><language>eng</language><publisher>United States: Oxford University Press</publisher><subject>Brain - diagnostic imaging ; Gray Matter - diagnostic imaging ; Neuroimaging ; Radiomics ; Reproducibility of Results</subject><ispartof>Cerebral cortex (New York, N.Y. 1991), 2024-01, Vol.34 (2)</ispartof><rights>The Author(s) 2024. Published by Oxford University Press. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com 2024</rights><rights>The Author(s) 2024. 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In this study, a novel individualized radiomics-based structural similarity network was proposed from T1 images. In detail, it used voxel-based morphometry to obtain the preprocessed gray matter images, and radiomic features were then extracted on each region of interest in Brainnetome atlas, and an individualized radiomics-based structural similarity network was finally built using the correlational values of radiomic features between any pair of regions of interest. After that, the network characteristics of individualized radiomics-based structural similarity network were assessed, including graph theory attributes, test–retest reliability, and individual identification ability (fingerprinting). At last, two representative applications for individualized radiomics-based structural similarity network, namely mild cognitive impairment subtype discrimination and fluid intelligence prediction, were exemplified and compared with some other networks on large open-source datasets. The results revealed that the individualized radiomics-based structural similarity network displays remarkable network characteristics and exhibits advantageous performances in mild cognitive impairment subtype discrimination and fluid intelligence prediction. In summary, the individualized radiomics-based structural similarity network provides a distinctive, reliable, and informative individualized structural brain network, which can be combined with other networks such as resting-state functional connectivity for various phenotypic and clinical applications.</abstract><cop>United States</cop><pub>Oxford University Press</pub><pmid>38300184</pmid><doi>10.1093/cercor/bhae016</doi><orcidid>https://orcid.org/0000-0002-4478-8683</orcidid></addata></record>
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source	MEDLINE; Oxford University Press Journals All Titles (1996-Current)
subjects	Brain - diagnostic imaging Gray Matter - diagnostic imaging Neuroimaging Radiomics Reproducibility of Results
title	A radiomics-based brain network in T1 images: construction, attributes, and applications
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