Diversity-sensitive brain clocks linked to biophysical mechanisms in aging and dementia

Carlos Coronel-Oliveros; Sebastián Moguilner; Hernan Hernandez; Josephine Cruzat; Sandra Baez; Vicente Medel; Jhosmary Cuadros; Hernando Santamaria-Garcia; Pedro A. Valdes-Sosa; Francisco Lopera; John Fredy Ochoa-Gómez; Alfredis González-Hernández; Jasmín Bonilla-Santos; Rodrigo A. Gonzalez-Montealegre; Tuba Aktürk; Ebru Yıldırım; Renato Anghinah; Agustina Legaz; Sol Fittipaldi; Görsev G. Yener; Javier Escudero; Claudio Babiloni; Susanna Lopez; Robert Whelan; Alberto Fernández; David Huepe; Gaetano Di Caterina; Marcio Soto-Añari; Raul Gonzalez-Gomez; Eduar Herrera; Daniel Abasolo; Kerry Kilborn; Nicolás Rubido; Ruaridh Clark; Rubén Herzog; Deniz Yerlikaya; Bahar Güntekin; Gustavo Deco; Pavel Prado; Mario A. Parra; Patricio Orio; Enzo Tagliazucchi; Brian Lawlor; Agustin Ibanez

doi:10.1038/s44220-025-00502-7

Diversity-sensitive brain clocks linked to biophysical mechanisms in aging and dementia

Carlos Coronel-Oliveros
, Sebastián Moguilner
, Hernan Hernandez
, Josephine Cruzat
, Sandra Baez
, Vicente Medel
, Jhosmary Cuadros
, Hernando Santamaria-Garcia
, Pedro A. Valdes-Sosa
, Francisco Lopera
, John Fredy Ochoa-Gómez
, Alfredis González-Hernández
, Jasmín Bonilla-Santos
, Rodrigo A. Gonzalez-Montealegre
, Tuba Aktürk
, Ebru Yıldırım
, Renato Anghinah
, Agustina Legaz
, Sol Fittipaldi
, Görsev G. Yener

Javier Escudero, Claudio Babiloni, Susanna Lopez, Robert Whelan, Alberto Fernández, David Huepe, Gaetano Di Caterina, Marcio Soto-Añari, Raul Gonzalez-Gomez, Eduar Herrera, Daniel Abasolo, Kerry Kilborn, Nicolás Rubido, Ruaridh Clark, Rubén Herzog, Deniz Yerlikaya, Bahar Güntekin, Gustavo Deco, Pavel Prado, Mario A. Parra, Patricio Orio, Enzo Tagliazucchi, Brian Lawlor, Agustin Ibanez

Universidad Adolfo Ibáñez
University of California at San Francisco
Trinity College Dublin
Harvard University
Universidad de los Andes Colombia
Universidad Técnica Federico Santa Maria
Universidad Nacional Experimental del Táchira
University of Electronic Science and Technology of China
Cuban Neuroscience Center
Universidad de Antioquia
Universidad Surcolombiana
Universidad Cooperativa de Colombia
Istanbul Medipol University
Universidade de São Paulo
Universidad de San Andrés
Izmir Ekonomi University
Dokuz Eylul University
Izmir Biomedicine and Genome Center
University of Edinburgh
University of Rome La Sapienza
Hospital San Raffaele Cassino
Complutense University
University of Strathclyde
Universidad Católica de San Pablo
Universidad ICESI
University of Surrey
University of Glasgow
University of Aberdeen
Sorbonne Université
Universitat Pompeu Fabra Barcelona
Max Planck Institute for Human Cognitive and Brain Sciences
ICREA
Monash University
Universidad San Sebastián
Universidad de Valparaíso
Rosario

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

3 Scopus citations

Abstract

Brain clocks track the deviations between predicted brain age and chronological age (brain age gaps, BAGs). These BAGs can be used to measure accelerated aging, monitoring deviations from the healthy brain trajectories associated with brain diseases and different cumulative burdens. However, the underlying biophysical mechanisms associated with BAGs in aging and dementia remain unclear. Here we combine source space connectivity (via electroencephalography) with generative brain modeling in healthy controls from the global south and north, alongside patients with Alzheimer’s disease and behavioral variant frontotemporal dementia (bvFTD) (N = 1,399). BAGs in aging were influenced by geography (south > north), income (low > high), sex (female > male) and education (low > high), with larger BAGs in patients, especially females, with Alzheimer’s disease. Biophysical modeling revealed BAGs related to hyperexcitability and structural disintegration in aging, while hypoexcitability and severe disintegration were linked to dementia. Our work sheds light on the biophysical mechanisms of accelerated aging and dementia in diverse populations.

Original language	English
Pages (from-to)	1214-1229
Number of pages	16
Journal	Nature Mental Health
Volume	3
Issue number	10
DOIs	https://doi.org/10.1038/s44220-025-00502-7
State	Published - 18 Sep 2025

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10.1038/s44220-025-00502-7

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Coronel-Oliveros, C., Moguilner, S., Hernandez, H., Cruzat, J., Baez, S., Medel, V., Cuadros, J., Santamaria-Garcia, H., Valdes-Sosa, P. A., Lopera, F., Ochoa-Gómez, J. F., González-Hernández, A., Bonilla-Santos, J., Gonzalez-Montealegre, R. A., Aktürk, T., Yıldırım, E., Anghinah, R., Legaz, A., Fittipaldi, S., ... Ibanez, A. (2025). Diversity-sensitive brain clocks linked to biophysical mechanisms in aging and dementia. Nature Mental Health, 3(10), 1214-1229. https://doi.org/10.1038/s44220-025-00502-7

@article{f678bc4a114c45729d5646d06d691eb8,

title = "Diversity-sensitive brain clocks linked to biophysical mechanisms in aging and dementia",

abstract = "Brain clocks track the deviations between predicted brain age and chronological age (brain age gaps, BAGs). These BAGs can be used to measure accelerated aging, monitoring deviations from the healthy brain trajectories associated with brain diseases and different cumulative burdens. However, the underlying biophysical mechanisms associated with BAGs in aging and dementia remain unclear. Here we combine source space connectivity (via electroencephalography) with generative brain modeling in healthy controls from the global south and north, alongside patients with Alzheimer{\textquoteright}s disease and behavioral variant frontotemporal dementia (bvFTD) (N = 1,399). BAGs in aging were influenced by geography (south > north), income (low > high), sex (female > male) and education (low > high), with larger BAGs in patients, especially females, with Alzheimer{\textquoteright}s disease. Biophysical modeling revealed BAGs related to hyperexcitability and structural disintegration in aging, while hypoexcitability and severe disintegration were linked to dementia. Our work sheds light on the biophysical mechanisms of accelerated aging and dementia in diverse populations.",

author = "Carlos Coronel-Oliveros and Sebasti{\'a}n Moguilner and Hernan Hernandez and Josephine Cruzat and Sandra Baez and Vicente Medel and Jhosmary Cuadros and Hernando Santamaria-Garcia and Valdes-Sosa, \{Pedro A.\} and Francisco Lopera and Ochoa-G{\'o}mez, \{John Fredy\} and Alfredis Gonz{\'a}lez-Hern{\'a}ndez and Jasm{\'i}n Bonilla-Santos and Gonzalez-Montealegre, \{Rodrigo A.\} and Tuba Akt{\"u}rk and Ebru Yıldırım and Renato Anghinah and Agustina Legaz and Sol Fittipaldi and Yener, \{G{\"o}rsev G.\} and Javier Escudero and Claudio Babiloni and Susanna Lopez and Robert Whelan and Alberto Fern{\'a}ndez and David Huepe and \{Di Caterina\}, Gaetano and Marcio Soto-A{\~n}ari and Raul Gonzalez-Gomez and Eduar Herrera and Daniel Abasolo and Kerry Kilborn and Nicol{\'a}s Rubido and Ruaridh Clark and Rub{\'e}n Herzog and Deniz Yerlikaya and Bahar G{\"u}ntekin and Gustavo Deco and Pavel Prado and Parra, \{Mario A.\} and Patricio Orio and Enzo Tagliazucchi and Brian Lawlor and Agustin Ibanez",

note = "Publisher Copyright: {\textcopyright} The Author(s), under exclusive licence to Springer Nature America, Inc. 2025.",

year = "2025",

month = sep,

day = "18",

doi = "10.1038/s44220-025-00502-7",

language = "English",

volume = "3",

pages = "1214--1229",

journal = "Nature Mental Health",

issn = "2731-6076",

number = "10",

}

Coronel-Oliveros, C, Moguilner, S, Hernandez, H, Cruzat, J, Baez, S, Medel, V, Cuadros, J, Santamaria-Garcia, H, Valdes-Sosa, PA, Lopera, F, Ochoa-Gómez, JF, González-Hernández, A, Bonilla-Santos, J, Gonzalez-Montealegre, RA, Aktürk, T, Yıldırım, E, Anghinah, R, Legaz, A, Fittipaldi, S, Yener, GG, Escudero, J, Babiloni, C, Lopez, S, Whelan, R, Fernández, A, Huepe, D, Di Caterina, G, Soto-Añari, M, Gonzalez-Gomez, R, Herrera, E, Abasolo, D, Kilborn, K, Rubido, N, Clark, R, Herzog, R, Yerlikaya, D, Güntekin, B, Deco, G, Prado, P, Parra, MA, Orio, P, Tagliazucchi, E, Lawlor, B & Ibanez, A 2025, 'Diversity-sensitive brain clocks linked to biophysical mechanisms in aging and dementia', Nature Mental Health, vol. 3, no. 10, pp. 1214-1229. https://doi.org/10.1038/s44220-025-00502-7

TY - JOUR

T1 - Diversity-sensitive brain clocks linked to biophysical mechanisms in aging and dementia

AU - Coronel-Oliveros, Carlos

AU - Moguilner, Sebastián

AU - Hernandez, Hernan

AU - Cruzat, Josephine

AU - Baez, Sandra

AU - Medel, Vicente

AU - Cuadros, Jhosmary

AU - Santamaria-Garcia, Hernando

AU - Valdes-Sosa, Pedro A.

AU - Lopera, Francisco

AU - Ochoa-Gómez, John Fredy

AU - González-Hernández, Alfredis

AU - Bonilla-Santos, Jasmín

AU - Gonzalez-Montealegre, Rodrigo A.

AU - Aktürk, Tuba

AU - Yıldırım, Ebru

AU - Anghinah, Renato

AU - Legaz, Agustina

AU - Fittipaldi, Sol

AU - Yener, Görsev G.

AU - Escudero, Javier

AU - Babiloni, Claudio

AU - Lopez, Susanna

AU - Whelan, Robert

AU - Fernández, Alberto

AU - Huepe, David

AU - Di Caterina, Gaetano

AU - Soto-Añari, Marcio

AU - Gonzalez-Gomez, Raul

AU - Herrera, Eduar

AU - Abasolo, Daniel

AU - Kilborn, Kerry

AU - Rubido, Nicolás

AU - Clark, Ruaridh

AU - Herzog, Rubén

AU - Yerlikaya, Deniz

AU - Güntekin, Bahar

AU - Deco, Gustavo

AU - Prado, Pavel

AU - Parra, Mario A.

AU - Orio, Patricio

AU - Tagliazucchi, Enzo

AU - Lawlor, Brian

AU - Ibanez, Agustin

PY - 2025/9/18

Y1 - 2025/9/18

N2 - Brain clocks track the deviations between predicted brain age and chronological age (brain age gaps, BAGs). These BAGs can be used to measure accelerated aging, monitoring deviations from the healthy brain trajectories associated with brain diseases and different cumulative burdens. However, the underlying biophysical mechanisms associated with BAGs in aging and dementia remain unclear. Here we combine source space connectivity (via electroencephalography) with generative brain modeling in healthy controls from the global south and north, alongside patients with Alzheimer’s disease and behavioral variant frontotemporal dementia (bvFTD) (N = 1,399). BAGs in aging were influenced by geography (south > north), income (low > high), sex (female > male) and education (low > high), with larger BAGs in patients, especially females, with Alzheimer’s disease. Biophysical modeling revealed BAGs related to hyperexcitability and structural disintegration in aging, while hypoexcitability and severe disintegration were linked to dementia. Our work sheds light on the biophysical mechanisms of accelerated aging and dementia in diverse populations.

AB - Brain clocks track the deviations between predicted brain age and chronological age (brain age gaps, BAGs). These BAGs can be used to measure accelerated aging, monitoring deviations from the healthy brain trajectories associated with brain diseases and different cumulative burdens. However, the underlying biophysical mechanisms associated with BAGs in aging and dementia remain unclear. Here we combine source space connectivity (via electroencephalography) with generative brain modeling in healthy controls from the global south and north, alongside patients with Alzheimer’s disease and behavioral variant frontotemporal dementia (bvFTD) (N = 1,399). BAGs in aging were influenced by geography (south > north), income (low > high), sex (female > male) and education (low > high), with larger BAGs in patients, especially females, with Alzheimer’s disease. Biophysical modeling revealed BAGs related to hyperexcitability and structural disintegration in aging, while hypoexcitability and severe disintegration were linked to dementia. Our work sheds light on the biophysical mechanisms of accelerated aging and dementia in diverse populations.

UR - https://www.scopus.com/pages/publications/105016555788

UR - https://www.mendeley.com/catalogue/9a73d4c2-d1aa-3ff3-81f5-4d83de48bf6d/

U2 - 10.1038/s44220-025-00502-7

DO - 10.1038/s44220-025-00502-7

M3 - Article

AN - SCOPUS:105016555788

SN - 2731-6076

VL - 3

SP - 1214

EP - 1229

JO - Nature Mental Health

JF - Nature Mental Health

IS - 10

ER -

Diversity-sensitive brain clocks linked to biophysical mechanisms in aging and dementia

Abstract

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