Dissecting human cortical similarity networks across the lifespan

Alzheimer’s Disease Neuroimaging Initiative (ADNI); Multi-Center Alzheimer's Disease Imaging (MCADI) Consortium; Disease Imaging Data Archiving-Major Depressive Disorder (DIDA-MDD) Working Group

doi:10.1016/j.neuron.2025.06.018

Dissecting human cortical similarity networks across the lifespan

Alzheimer’s Disease Neuroimaging Initiative (ADNI)
, Multi-Center Alzheimer's Disease Imaging (MCADI) Consortium
, Disease Imaging Data Archiving-Major Depressive Disorder (DIDA-MDD) Working Group

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

2 Scopus citations

Abstract

The human cortex exhibits remarkable morphometric similarity between regions; however, the form and extent of lifespan network remodeling remain unknown. Here, we show the spatiotemporal maturation of morphometric brain networks, using multimodal neuroimaging data from 33,937 healthy participants aged 0–80 years. Global architecture matures from birth to early adulthood through enhanced modularity and small worldness. Early development features cytoarchitecturally distinct remodeling: sensory cortices exhibit increased morphometric differentiation, paralimbic cortices show increased morphometric similarity, and association cortices retain stable hub roles. Morphology-function coupling peaks in early adolescence and then decreases, supporting protracted functional maturation. These growth patterns of morphometric networks are correlated with gene expression related to synaptic signaling, neurodevelopment, and metabolism. Normative models based on morphometric networks identify person-specific, connectivity-phenotypic deviations in 1,202 patients with brain disorders. These data provide a blueprint for elucidating the principle of cortical network reconfiguration and a benchmark for quantifying interindividual network variations.

Original language	English
Pages (from-to)	3275-3295.e11
Journal	Neuron
Volume	113
Issue number	19
DOIs	https://doi.org/10.1016/j.neuron.2025.06.018
State	Published - Oct 1 2025

Keywords

brain chart
connectome
cortical morphology
functional connectivity
individual difference
metabolism
morphometric network
morphometric similarity
normative model
transcriptome

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10.1016/j.neuron.2025.06.018

Cite this

@article{3d3ad0cff6cf467995dd8c9cb1ffe0a2,

title = "Dissecting human cortical similarity networks across the lifespan",

abstract = "The human cortex exhibits remarkable morphometric similarity between regions; however, the form and extent of lifespan network remodeling remain unknown. Here, we show the spatiotemporal maturation of morphometric brain networks, using multimodal neuroimaging data from 33,937 healthy participants aged 0–80 years. Global architecture matures from birth to early adulthood through enhanced modularity and small worldness. Early development features cytoarchitecturally distinct remodeling: sensory cortices exhibit increased morphometric differentiation, paralimbic cortices show increased morphometric similarity, and association cortices retain stable hub roles. Morphology-function coupling peaks in early adolescence and then decreases, supporting protracted functional maturation. These growth patterns of morphometric networks are correlated with gene expression related to synaptic signaling, neurodevelopment, and metabolism. Normative models based on morphometric networks identify person-specific, connectivity-phenotypic deviations in 1,202 patients with brain disorders. These data provide a blueprint for elucidating the principle of cortical network reconfiguration and a benchmark for quantifying interindividual network variations.",

keywords = "brain chart, connectome, cortical morphology, functional connectivity, individual difference, metabolism, morphometric network, morphometric similarity, normative model, transcriptome",

author = "\{Alzheimer{\textquoteright}s Disease Neuroimaging Initiative (ADNI)\} and \{Multi-Center Alzheimer's Disease Imaging (MCADI) Consortium\} and \{Disease Imaging Data Archiving-Major Depressive Disorder (DIDA-MDD) Working Group\} and Xinyuan Liang and Lianglong Sun and Mingrui Xia and Tengda Zhao and Gaolang Gong and Qiongling Li and Xuhong Liao and Zaixu Cui and Dingna Duan and Chenxuan Pang and Qian Wang and Qian Yu and Yanchao Bi and Pindong Chen and Rui Chen and Yuan Chen and Taolin Chen and Jingliang Cheng and Yuqi Cheng and Zhengjia Dai and Yao Deng and Yuyin Ding and Qi Dong and Gao, \{Jia Hong\} and Qiyong Gong and Ying Han and Zaizhu Han and Huang, \{Chu Chung\} and Ruiwang Huang and Ran Huo and Lingjiang Li and Lin, \{Ching Po\} and Qixiang Lin and Bangshan Liu and Chao Liu and Ningyu Liu and Ying Liu and Yong Liu and Jing Lu and Leilei Ma and Weiwei Men and Shaozheng Qin and Wen Qin and Jiang Qiu and Shijun Qiu and Tianmei Si and Shuping Tan and Yanqing Tang and Sha Tao and Dawei Wang and Fei Wang and Jiali Wang and Jinhui Wang and Pan Wang and Xiaoqin Wang and Yanpei Wang and Dongtao Wei and Yankun Wu and Peng Xie and Xiufeng Xu and Yuehua Xu and Zhilei Xu and Liyuan Yang and Chunshui Yu and Huishu Yuan and Zilong Zeng and Haibo Zhang and Xi Zhang and Gai Zhao and Yanting Zheng and Suyu Zhong and Michael Weiner and Paul Aisen and Ronald Petersen and Jack, \{Clifford R.\} and William Jagust and Trojanowki, \{John Q.\} and Toga, \{Arthur W.\} and Laurel Beckett and Green, \{Robert C.\} and Saykin, \{Andrew J.\} and John Morris and Shaw, \{Leslie M.\} and Enchi Liu and Tom Montine and Thomas, \{Ronald G.\} and Michael Donohue and Sarah Walter and Devon Gessert and Tamie Sather and Gus Jiminez and Danielle Harvey and Matthew Bernstein and Nick Fox and Paul Thompson and Norbert Schuff and Charles DeCArli and Bret Borowski and Jeff Gunter and Matt Senjem and Prashanthi Vemuri and David Jones and Kejal Kantarci and Chad Ward and Koeppe, \{Robert A.\} and Norm Foster and Reiman, \{Eric M.\} and Kewei Chen and Chet Mathis and Susan Landau and Cairns, \{Nigel J.\} and Erin Householder and Reinwald, \{Lisa Taylor\} and Virginia Lee and Magdalena Korecka and Michal Figurski and Karen Crawford and Scott Neu and Foroud, \{Tatiana M.\} and Steven Potkin and Li Shen and Faber Kelley and Sungeun Kim and Kwangsik Nho and Zaven Kachaturian and Richard Frank and Snyder, \{Peter J.\} and Susan Molchan and Jeffrey Kaye and Joseph Quinn and Betty Lind and Raina Carter and Sara Dolen and Schneider, \{Lon S.\} and Sonia Pawluczyk and Mauricio Beccera and Liberty Teodoro and Spann, \{Bryan M.\} and James Brewer and Helen Vanderswag and Adam Fleisher and Heidebrink, \{Judith L.\} and Lord, \{Joanne L.\} and Mason, \{Sara S.\} and Albers, \{Colleen S.\} and David Knopman and Kris Johnson and Doody, \{Rachelle S.\} and Meyer, \{Javier Villanueva\} and Munir Chowdhury and Susan Rountree and Mimi Dang and Yaakov Stern and Honig, \{Lawrence S.\} and Bell, \{Karen L.\} and Beau Ances and Morris, \{John C.\} and Maria Carroll and Sue Leon and Mintun, \{Mark A.\} and Stacy Schneider and Angela Oliver and Randall Griffith and David Clark and David Geldmacher and John Brockington and Erik Roberson and Hillel Grossman and Effie Mitsis and \{Leyla deToledo-Morrell\}, deToledo-Morrell and Shah, \{Raj C.\} and Ranjan Duara and Daniel Varon and Greig, \{Maria T.\} and Peggy Roberts and Marilyn Albert and Chiadi Onyike and Daniel D'Agostino and Stephanie Kielb and Galvin, \{James E.\} and Pogorelec, \{Dana M.\} and Brittany Cerbone and Michel, \{Christina A.\} and Henry Rusinek and \{de Leon\}, \{Mony J.\} and Lidia Glodzik and \{De Santi\}, Susan and Doraiswamy, \{P. Murali\} and Petrella, \{Jeffrey R.\} and Wong, \{Terence Z.\} and Arnold, \{Steven E.\} and Karlawish, \{Jason H.\} and David Wolk and Smith, \{Charles D.\} and Greg Jicha and Peter Hardy and Partha Sinha and Elizabeth Oates and Kyle Womack and Kyle Womack",

note = "Publisher Copyright: {\textcopyright} 2025 Elsevier Inc.",

year = "2025",

month = oct,

day = "1",

doi = "10.1016/j.neuron.2025.06.018",

language = "English",

volume = "113",

pages = "3275--3295.e11",

journal = "Neuron",

issn = "0896-6273",

number = "19",

}

Dissecting human cortical similarity networks across the lifespan. / Alzheimer’s Disease Neuroimaging Initiative (ADNI); Multi-Center Alzheimer's Disease Imaging (MCADI) Consortium; Disease Imaging Data Archiving-Major Depressive Disorder (DIDA-MDD) Working Group.
In: Neuron, Vol. 113, No. 19, 01.10.2025, p. 3275-3295.e11.

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

TY - JOUR

T1 - Dissecting human cortical similarity networks across the lifespan

AU - Alzheimer’s Disease Neuroimaging Initiative (ADNI)

AU - Multi-Center Alzheimer's Disease Imaging (MCADI) Consortium

AU - Disease Imaging Data Archiving-Major Depressive Disorder (DIDA-MDD) Working Group

AU - Liang, Xinyuan

AU - Sun, Lianglong

AU - Xia, Mingrui

AU - Zhao, Tengda

AU - Gong, Gaolang

AU - Li, Qiongling

AU - Liao, Xuhong

AU - Cui, Zaixu

AU - Duan, Dingna

AU - Pang, Chenxuan

AU - Wang, Qian

AU - Yu, Qian

AU - Bi, Yanchao

AU - Chen, Pindong

AU - Chen, Rui

AU - Chen, Yuan

AU - Chen, Taolin

AU - Cheng, Jingliang

AU - Cheng, Yuqi

AU - Dai, Zhengjia

AU - Deng, Yao

AU - Ding, Yuyin

AU - Dong, Qi

AU - Gao, Jia Hong

AU - Gong, Qiyong

AU - Han, Ying

AU - Han, Zaizhu

AU - Huang, Chu Chung

AU - Huang, Ruiwang

AU - Huo, Ran

AU - Li, Lingjiang

AU - Lin, Ching Po

AU - Lin, Qixiang

AU - Liu, Bangshan

AU - Liu, Chao

AU - Liu, Ningyu

AU - Liu, Ying

AU - Liu, Yong

AU - Lu, Jing

AU - Ma, Leilei

AU - Men, Weiwei

AU - Qin, Shaozheng

AU - Qin, Wen

AU - Qiu, Jiang

AU - Qiu, Shijun

AU - Si, Tianmei

AU - Tan, Shuping

AU - Tang, Yanqing

AU - Tao, Sha

AU - Wang, Dawei

AU - Wang, Fei

AU - Wang, Jiali

AU - Wang, Jinhui

AU - Wang, Pan

AU - Wang, Xiaoqin

AU - Wang, Yanpei

AU - Wei, Dongtao

AU - Wu, Yankun

AU - Xie, Peng

AU - Xu, Xiufeng

AU - Xu, Yuehua

AU - Xu, Zhilei

AU - Yang, Liyuan

AU - Yu, Chunshui

AU - Yuan, Huishu

AU - Zeng, Zilong

AU - Zhang, Haibo

AU - Zhang, Xi

AU - Zhao, Gai

AU - Zheng, Yanting

AU - Zhong, Suyu

AU - Weiner, Michael

AU - Aisen, Paul

AU - Petersen, Ronald

AU - Jack, Clifford R.

AU - Jagust, William

AU - Trojanowki, John Q.

AU - Toga, Arthur W.

AU - Beckett, Laurel

AU - Green, Robert C.

AU - Saykin, Andrew J.

AU - Morris, John

AU - Shaw, Leslie M.

AU - Liu, Enchi

AU - Montine, Tom

AU - Thomas, Ronald G.

AU - Donohue, Michael

AU - Walter, Sarah

AU - Gessert, Devon

AU - Sather, Tamie

AU - Jiminez, Gus

AU - Harvey, Danielle

AU - Bernstein, Matthew

AU - Fox, Nick

AU - Thompson, Paul

AU - Schuff, Norbert

AU - DeCArli, Charles

AU - Borowski, Bret

AU - Gunter, Jeff

AU - Senjem, Matt

AU - Vemuri, Prashanthi

AU - Jones, David

AU - Kantarci, Kejal

AU - Ward, Chad

AU - Koeppe, Robert A.

AU - Foster, Norm

AU - Reiman, Eric M.

AU - Chen, Kewei

AU - Mathis, Chet

AU - Landau, Susan

AU - Cairns, Nigel J.

AU - Householder, Erin

AU - Reinwald, Lisa Taylor

AU - Lee, Virginia

AU - Korecka, Magdalena

AU - Figurski, Michal

AU - Crawford, Karen

AU - Neu, Scott

AU - Foroud, Tatiana M.

AU - Potkin, Steven

AU - Shen, Li

AU - Kelley, Faber

AU - Kim, Sungeun

AU - Nho, Kwangsik

AU - Kachaturian, Zaven

AU - Frank, Richard

AU - Snyder, Peter J.

AU - Molchan, Susan

AU - Kaye, Jeffrey

AU - Quinn, Joseph

AU - Lind, Betty

AU - Carter, Raina

AU - Dolen, Sara

AU - Schneider, Lon S.

AU - Pawluczyk, Sonia

AU - Beccera, Mauricio

AU - Teodoro, Liberty

AU - Spann, Bryan M.

AU - Brewer, James

AU - Vanderswag, Helen

AU - Fleisher, Adam

AU - Heidebrink, Judith L.

AU - Lord, Joanne L.

AU - Mason, Sara S.

AU - Albers, Colleen S.

AU - Knopman, David

AU - Johnson, Kris

AU - Doody, Rachelle S.

AU - Meyer, Javier Villanueva

AU - Chowdhury, Munir

AU - Rountree, Susan

AU - Dang, Mimi

AU - Stern, Yaakov

AU - Honig, Lawrence S.

AU - Bell, Karen L.

AU - Ances, Beau

AU - Morris, John C.

AU - Carroll, Maria

AU - Leon, Sue

AU - Mintun, Mark A.

AU - Schneider, Stacy

AU - Oliver, Angela

AU - Griffith, Randall

AU - Clark, David

AU - Geldmacher, David

AU - Brockington, John

AU - Roberson, Erik

AU - Grossman, Hillel

AU - Mitsis, Effie

AU - Leyla deToledo-Morrell, deToledo-Morrell

AU - Shah, Raj C.

AU - Duara, Ranjan

AU - Varon, Daniel

AU - Greig, Maria T.

AU - Roberts, Peggy

AU - Albert, Marilyn

AU - Onyike, Chiadi

AU - D'Agostino, Daniel

AU - Kielb, Stephanie

AU - Galvin, James E.

AU - Pogorelec, Dana M.

AU - Cerbone, Brittany

AU - Michel, Christina A.

AU - Rusinek, Henry

AU - de Leon, Mony J.

AU - Glodzik, Lidia

AU - De Santi, Susan

AU - Doraiswamy, P. Murali

AU - Petrella, Jeffrey R.

AU - Wong, Terence Z.

AU - Arnold, Steven E.

AU - Karlawish, Jason H.

AU - Wolk, David

AU - Smith, Charles D.

AU - Jicha, Greg

AU - Hardy, Peter

AU - Sinha, Partha

AU - Oates, Elizabeth

AU - Womack, Kyle

PY - 2025/10/1

Y1 - 2025/10/1

N2 - The human cortex exhibits remarkable morphometric similarity between regions; however, the form and extent of lifespan network remodeling remain unknown. Here, we show the spatiotemporal maturation of morphometric brain networks, using multimodal neuroimaging data from 33,937 healthy participants aged 0–80 years. Global architecture matures from birth to early adulthood through enhanced modularity and small worldness. Early development features cytoarchitecturally distinct remodeling: sensory cortices exhibit increased morphometric differentiation, paralimbic cortices show increased morphometric similarity, and association cortices retain stable hub roles. Morphology-function coupling peaks in early adolescence and then decreases, supporting protracted functional maturation. These growth patterns of morphometric networks are correlated with gene expression related to synaptic signaling, neurodevelopment, and metabolism. Normative models based on morphometric networks identify person-specific, connectivity-phenotypic deviations in 1,202 patients with brain disorders. These data provide a blueprint for elucidating the principle of cortical network reconfiguration and a benchmark for quantifying interindividual network variations.

AB - The human cortex exhibits remarkable morphometric similarity between regions; however, the form and extent of lifespan network remodeling remain unknown. Here, we show the spatiotemporal maturation of morphometric brain networks, using multimodal neuroimaging data from 33,937 healthy participants aged 0–80 years. Global architecture matures from birth to early adulthood through enhanced modularity and small worldness. Early development features cytoarchitecturally distinct remodeling: sensory cortices exhibit increased morphometric differentiation, paralimbic cortices show increased morphometric similarity, and association cortices retain stable hub roles. Morphology-function coupling peaks in early adolescence and then decreases, supporting protracted functional maturation. These growth patterns of morphometric networks are correlated with gene expression related to synaptic signaling, neurodevelopment, and metabolism. Normative models based on morphometric networks identify person-specific, connectivity-phenotypic deviations in 1,202 patients with brain disorders. These data provide a blueprint for elucidating the principle of cortical network reconfiguration and a benchmark for quantifying interindividual network variations.

KW - brain chart

KW - connectome

KW - cortical morphology

KW - functional connectivity

KW - individual difference

KW - metabolism

KW - morphometric network

KW - morphometric similarity

KW - normative model

KW - transcriptome

UR - https://www.scopus.com/pages/publications/105015218793

U2 - 10.1016/j.neuron.2025.06.018

DO - 10.1016/j.neuron.2025.06.018

M3 - Article

C2 - 40706587

AN - SCOPUS:105015218793

SN - 0896-6273

VL - 113

SP - 3275-3295.e11

JO - Neuron

JF - Neuron

IS - 19

ER -

Dissecting human cortical similarity networks across the lifespan

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Keywords

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