Cortical thickness across the lifespan: Data from 17,075 healthy individuals aged 3–90 years

Karolinska Schizophrenia Project (KaSP)

doi:10.1002/hbm.25364

Cortical thickness across the lifespan: Data from 17,075 healthy individuals aged 3–90 years

Karolinska Schizophrenia Project (KaSP)

Research output: Contribution to journal › Article › peer-review

150 Scopus citations

Abstract

Delineating the association of age and cortical thickness in healthy individuals is critical given the association of cortical thickness with cognition and behavior. Previous research has shown that robust estimates of the association between age and brain morphometry require large-scale studies. In response, we used cross-sectional data from 17,075 individuals aged 3–90 years from the Enhancing Neuroimaging Genetics through Meta-Analysis (ENIGMA) Consortium to infer age-related changes in cortical thickness. We used fractional polynomial (FP) regression to quantify the association between age and cortical thickness, and we computed normalized growth centiles using the parametric Lambda, Mu, and Sigma method. Interindividual variability was estimated using meta-analysis and one-way analysis of variance. For most regions, their highest cortical thickness value was observed in childhood. Age and cortical thickness showed a negative association; the slope was steeper up to the third decade of life and more gradual thereafter; notable exceptions to this general pattern were entorhinal, temporopolar, and anterior cingulate cortices. Interindividual variability was largest in temporal and frontal regions across the lifespan. Age and its FP combinations explained up to 59% variance in cortical thickness. These results may form the basis of further investigation on normative deviation in cortical thickness and its significance for behavioral and cognitive outcomes.

Original language	English
Pages (from-to)	431-451
Number of pages	21
Journal	Human Brain Mapping
Volume	43
Issue number	1
DOIs	https://doi.org/10.1002/hbm.25364
State	Published - Jan 2022
Externally published	Yes

Funding

Funders	Funder number
Fresenius Medical Care North America
FP7 Ideas: European Research Council
National Institutes of Health
European Commission
South London and Maudsley NHS Foundation Trust
Icahn School of Medicine at Mount Sinai
UK Research and Innovation
Not added	NWO-MagW 480-04-004, 481-08-011, NWO 51.02.062, 433-09-220, NWO 51.02.061, NWO/SPI 56-464-14192
National Center for Research Resources	U24RR025736, U24RR021992, UL1RR025761
ZonMw	016-115-035, 480-04-004, 463-06-001, 451-04-034, 024.001.003, 480-15-001/674, 912-10-020, 400-07-080, 31160008, 904-61-090, 400-05-717, 904-61-193, 056-32-010, 911-09-032, 985-10-002
National Institute of Mental Health	R01MH104284, R01MH090553, R01MH116147, R01MH129742, R01MH119219, R01MH113619, R01MH042191, R01MH117014
National Institute on Aging	P30AG010133, R01AG058854, R01AG060610, P30AG072976, U01AG068057, R01AG019771
Medical Research Council	G0500092, U54EB020403
National Center for Advancing Translational Sciences	UL1TR001414, UL1TR000153
National Health and Medical Research Council	496682, 1009064
Seventh Framework Programme	602805, 602450, 230374, 278948, 603016
National Institute of Biomedical Imaging and Bioengineering	U54EB020403
Vetenskapsrådet	521-2014-3487, 523-2014-3467, 2017-00949
Horizon 2020 Framework Programme	667302, 643051
National Institute of Child Health and Human Development	R01HD050735
Instituto de Salud Carlos III	PI060507, PI050427, PI14/00639, PI020499, PI14/00918
National Institute on Drug Abuse	RC2DA029475
National Cancer Institute	R01CA101318

Keywords

aging
cortical thickness
development
trajectories

Access to Document

10.1002/hbm.25364

Cite this

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title = "Cortical thickness across the lifespan: Data from 17,075 healthy individuals aged 3–90 years",

abstract = "Delineating the association of age and cortical thickness in healthy individuals is critical given the association of cortical thickness with cognition and behavior. Previous research has shown that robust estimates of the association between age and brain morphometry require large-scale studies. In response, we used cross-sectional data from 17,075 individuals aged 3–90 years from the Enhancing Neuroimaging Genetics through Meta-Analysis (ENIGMA) Consortium to infer age-related changes in cortical thickness. We used fractional polynomial (FP) regression to quantify the association between age and cortical thickness, and we computed normalized growth centiles using the parametric Lambda, Mu, and Sigma method. Interindividual variability was estimated using meta-analysis and one-way analysis of variance. For most regions, their highest cortical thickness value was observed in childhood. Age and cortical thickness showed a negative association; the slope was steeper up to the third decade of life and more gradual thereafter; notable exceptions to this general pattern were entorhinal, temporopolar, and anterior cingulate cortices. Interindividual variability was largest in temporal and frontal regions across the lifespan. Age and its FP combinations explained up to 59% variance in cortical thickness. These results may form the basis of further investigation on normative deviation in cortical thickness and its significance for behavioral and cognitive outcomes.",

keywords = "aging, cortical thickness, development, trajectories",

author = "{Karolinska Schizophrenia Project (KaSP)} and Sophia Frangou and Amirhossein Modabbernia and Williams, {Steven C.R.} and Efstathios Papachristou and Doucet, {Gaelle E.} and Ingrid Agartz and Moji Aghajani and Akudjedu, {Theophilus N.} and Anton Albajes-Eizagirre and Dag Aln{\ae}s and Alpert, {Kathryn I.} and Micael Andersson and Andreasen, {Nancy C.} and Andreassen, {Ole A.} and Philip Asherson and Tobias Banaschewski and Nuria Bargallo and Sarah Baumeister and Ramona Baur-Streubel and Alessandro Bertolino and Aurora Bonvino and Boomsma, {Dorret I.} and Stefan Borgwardt and Josiane Bourque and Daniel Brandeis and Alan Breier and Henry Brodaty and Brouwer, {Rachel M.} and Buitelaar, {Jan K.} and Busatto, {Geraldo F.} and Buckner, {Randy L.} and Vincent Calhoun and Canales-Rodr{\'i}guez, {Erick J.} and Cannon, {Dara M.} and Xavier Caseras and Castellanos, {Francisco X.} and Simon Cervenka and Chaim-Avancini, {Tiffany M.} and Ching, {Christopher R.K.} and Victoria Chubar and Clark, {Vincent P.} and Patricia Conrod and Annette Conzelmann and Benedicto Crespo-Facorro and Fabrice Crivello and Crone, {Eveline A.} and Dale, {Anders M.} and Udo Dannlowski and Christopher Davey and Stein, {Dan J.}",

note = "Publisher Copyright: {\textcopyright} 2021 The Authors. Human Brain Mapping published by Wiley Periodicals LLC.",

year = "2022",

month = jan,

doi = "10.1002/hbm.25364",

language = "אנגלית",

volume = "43",

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AU - Karolinska Schizophrenia Project (KaSP)

AU - Frangou, Sophia

AU - Modabbernia, Amirhossein

AU - Williams, Steven C.R.

AU - Papachristou, Efstathios

AU - Doucet, Gaelle E.

AU - Agartz, Ingrid

AU - Aghajani, Moji

AU - Akudjedu, Theophilus N.

AU - Albajes-Eizagirre, Anton

AU - Alnæs, Dag

AU - Alpert, Kathryn I.

AU - Andersson, Micael

AU - Andreasen, Nancy C.

AU - Andreassen, Ole A.

AU - Asherson, Philip

AU - Banaschewski, Tobias

AU - Bargallo, Nuria

AU - Baumeister, Sarah

AU - Baur-Streubel, Ramona

AU - Bertolino, Alessandro

AU - Bonvino, Aurora

AU - Boomsma, Dorret I.

AU - Borgwardt, Stefan

AU - Bourque, Josiane

AU - Brandeis, Daniel

AU - Breier, Alan

AU - Brodaty, Henry

AU - Brouwer, Rachel M.

AU - Buitelaar, Jan K.

AU - Busatto, Geraldo F.

AU - Buckner, Randy L.

AU - Calhoun, Vincent

AU - Canales-Rodríguez, Erick J.

AU - Cannon, Dara M.

AU - Caseras, Xavier

AU - Castellanos, Francisco X.

AU - Cervenka, Simon

AU - Chaim-Avancini, Tiffany M.

AU - Ching, Christopher R.K.

AU - Chubar, Victoria

AU - Clark, Vincent P.

AU - Conrod, Patricia

AU - Conzelmann, Annette

AU - Crespo-Facorro, Benedicto

AU - Crivello, Fabrice

AU - Crone, Eveline A.

AU - Dale, Anders M.

AU - Dannlowski, Udo

AU - Davey, Christopher

AU - Stein, Dan J.

PY - 2022/1

Y1 - 2022/1

N2 - Delineating the association of age and cortical thickness in healthy individuals is critical given the association of cortical thickness with cognition and behavior. Previous research has shown that robust estimates of the association between age and brain morphometry require large-scale studies. In response, we used cross-sectional data from 17,075 individuals aged 3–90 years from the Enhancing Neuroimaging Genetics through Meta-Analysis (ENIGMA) Consortium to infer age-related changes in cortical thickness. We used fractional polynomial (FP) regression to quantify the association between age and cortical thickness, and we computed normalized growth centiles using the parametric Lambda, Mu, and Sigma method. Interindividual variability was estimated using meta-analysis and one-way analysis of variance. For most regions, their highest cortical thickness value was observed in childhood. Age and cortical thickness showed a negative association; the slope was steeper up to the third decade of life and more gradual thereafter; notable exceptions to this general pattern were entorhinal, temporopolar, and anterior cingulate cortices. Interindividual variability was largest in temporal and frontal regions across the lifespan. Age and its FP combinations explained up to 59% variance in cortical thickness. These results may form the basis of further investigation on normative deviation in cortical thickness and its significance for behavioral and cognitive outcomes.

AB - Delineating the association of age and cortical thickness in healthy individuals is critical given the association of cortical thickness with cognition and behavior. Previous research has shown that robust estimates of the association between age and brain morphometry require large-scale studies. In response, we used cross-sectional data from 17,075 individuals aged 3–90 years from the Enhancing Neuroimaging Genetics through Meta-Analysis (ENIGMA) Consortium to infer age-related changes in cortical thickness. We used fractional polynomial (FP) regression to quantify the association between age and cortical thickness, and we computed normalized growth centiles using the parametric Lambda, Mu, and Sigma method. Interindividual variability was estimated using meta-analysis and one-way analysis of variance. For most regions, their highest cortical thickness value was observed in childhood. Age and cortical thickness showed a negative association; the slope was steeper up to the third decade of life and more gradual thereafter; notable exceptions to this general pattern were entorhinal, temporopolar, and anterior cingulate cortices. Interindividual variability was largest in temporal and frontal regions across the lifespan. Age and its FP combinations explained up to 59% variance in cortical thickness. These results may form the basis of further investigation on normative deviation in cortical thickness and its significance for behavioral and cognitive outcomes.

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KW - cortical thickness

KW - development

KW - trajectories

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EP - 451

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ER -

Cortical thickness across the lifespan: Data from 17,075 healthy individuals aged 3–90 years

Abstract

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Keywords

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