Structural inequality and temporal brain dynamics across diverse samples

Sandra Baez; Hernan Hernandez; Sebastian Moguilner; Jhosmary Cuadros; Hernando Santamaria‐Garcia; Vicente Medel; Joaquín Migeot; Josephine Cruzat; Pedro A. Valdes‐Sosa; Francisco Lopera; Alfredis González‐Hernández; Jasmin Bonilla‐Santos; Rodrigo A. Gonzalez‐Montealegre; Tuba Aktürk; Agustina Legaz; Florencia Altschuler; Sol Fittipaldi; Görsev G. Yener; Javier Escudero; Claudio Babiloni; Susanna Lopez; Robert Whelan; Alberto A Fernández Lucas; David Huepe; Marcio Soto‐Añari; Carlos Coronel‐Oliveros; Eduar Herrera; Daniel Abasolo; Ruaridh A. Clark; Bahar Güntekin; Claudia Duran‐Aniotz; Mario A. Parra; Brian Lawlor; Enzo Tagliazucchi; Pavel Prado; Agustin Ibanez

doi:10.1002/ctm2.70032

Clinical and Translational Medicine (Oct 2024)

Structural inequality and temporal brain dynamics across diverse samples

Sandra Baez,
Hernan Hernandez,
Sebastian Moguilner,
Jhosmary Cuadros,
Hernando Santamaria‐Garcia,
Vicente Medel,
Joaquín Migeot,
Josephine Cruzat,
Pedro A. Valdes‐Sosa,
Francisco Lopera,
Alfredis González‐Hernández,
Jasmin Bonilla‐Santos,
Rodrigo A. Gonzalez‐Montealegre,
Tuba Aktürk,
Agustina Legaz,
Florencia Altschuler,
Sol Fittipaldi,
Görsev G. Yener,
Javier Escudero,
Claudio Babiloni,
Susanna Lopez,
Robert Whelan,
Alberto A Fernández Lucas,
David Huepe,
Marcio Soto‐Añari,
Carlos Coronel‐Oliveros,
Eduar Herrera,
Daniel Abasolo,
Ruaridh A. Clark,
Bahar Güntekin,
Claudia Duran‐Aniotz,
Mario A. Parra,
Brian Lawlor,
Enzo Tagliazucchi,
Pavel Prado,
Agustin Ibanez

Affiliations

Sandra Baez: Departamento de Psicología Universidad de los Andes Bogota Colombia
Hernan Hernandez: Latin American Brain Health Institute Universidad Adolfo Ibañez Santiago de Chile Chile
Sebastian Moguilner: Latin American Brain Health Institute Universidad Adolfo Ibañez Santiago de Chile Chile
Jhosmary Cuadros: Latin American Brain Health Institute Universidad Adolfo Ibañez Santiago de Chile Chile
Hernando Santamaria‐Garcia: PhD Program in Neuroscience Pontificia Universidad Javeriana Bogota Colombia
Vicente Medel: Latin American Brain Health Institute Universidad Adolfo Ibañez Santiago de Chile Chile
Joaquín Migeot: Latin American Brain Health Institute Universidad Adolfo Ibañez Santiago de Chile Chile
Josephine Cruzat: Latin American Brain Health Institute Universidad Adolfo Ibañez Santiago de Chile Chile
Pedro A. Valdes‐Sosa: Technology of China Chengdu China
Francisco Lopera: Grupo de Neurociencias de Antioquia, University of Antioquia Medellín Colombia
Alfredis González‐Hernández: Master Programme of Clinical Neuropsychology, Universidad Surcolombiana Neiva Huila Colombia
Jasmin Bonilla‐Santos: Department of Psychology Universidad Cooperativa de Colombia Bogota Colombia
Rodrigo A. Gonzalez‐Montealegre: Neurocognition and Psychophysiology Laboratory Universidad Surcolombiana Neiva Huila Colombia
Tuba Aktürk: Department of Biophysics School of Medicine Istanbul Medipol University Istanbul Turkey
Agustina Legaz: Latin American Brain Health Institute Universidad Adolfo Ibañez Santiago de Chile Chile
Florencia Altschuler: Latin American Brain Health Institute Universidad Adolfo Ibañez Santiago de Chile Chile
Sol Fittipaldi: Global Brain Health Institute (GBHI) University of California San Francisco California USA
Görsev G. Yener: Faculty of Medicine, Izmir University of Economics Izmir Turkey
Javier Escudero: School of Engineering, Institute for Imaging, Data and Communications, University of Edinburgh Scotland UK
Claudio Babiloni: Department of Physiology and Pharmacology ‘V. Erspamer’ Sapienza University of Rome Rome Italy
Susanna Lopez: Department of Physiology and Pharmacology ‘V. Erspamer’ Sapienza University of Rome Rome Italy
Robert Whelan: Global Brain Health Institute (GBHI) University of California San Francisco California USA
Alberto A Fernández Lucas: Department of Legal Medicine Psychiatry and Pathology at the Complutense University of Madrid Madrid Spain
David Huepe: Center for Social and Cognitive Neuroscience (CSCN), School of Psychology, Universidad Adolfo Ibáñez Penalolen Chile
Marcio Soto‐Añari: Universidad Católica San Pablo Arequipa Peru
Carlos Coronel‐Oliveros: Global Brain Health Institute (GBHI) University of California San Francisco California USA
Eduar Herrera: Departamento de Estudios Psicológicos Universidad Icesi Cali Colombia
Daniel Abasolo: Faculty of Engineering and Physical Sciences, Centre for Biomedical Engineering, School of Mechanical Engineering Sciences, University of Surrey Guildford UK
Ruaridh A. Clark: Department of Electronic and Electrical Engineering University of Strathclyde Glasgow UK
Bahar Güntekin: Department of Biophysics School of Medicine Istanbul Medipol University Istanbul Turkey
Claudia Duran‐Aniotz: Latin American Brain Health Institute Universidad Adolfo Ibañez Santiago de Chile Chile
Mario A. Parra: Latin American Brain Health Institute Universidad Adolfo Ibañez Santiago de Chile Chile
Brian Lawlor: Global Brain Health Institute (GBHI) University of California San Francisco California USA
Enzo Tagliazucchi: Latin American Brain Health Institute Universidad Adolfo Ibañez Santiago de Chile Chile
Pavel Prado: Escuela de Fonoaudiología, Facultad de Odontología y Ciencias de la Rehabilitación, Universidad San Sebastián Santiago Chile
Agustin Ibanez: Global Brain Health Institute (GBHI) University of California San Francisco California USA

DOI: https://doi.org/10.1002/ctm2.70032
Journal volume & issue: Vol. 14, no. 10
pp. n/a – n/a

Abstract

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Abstract Background Structural income inequality – the uneven income distribution across regions or countries – could affect brain structure and function, beyond individual differences. However, the impact of structural income inequality on the brain dynamics and the roles of demographics and cognition in these associations remains unexplored. Methods Here, we assessed the impact of structural income inequality, as measured by the Gini coefficient on multiple EEG metrics, while considering the subject‐level effects of demographic (age, sex, education) and cognitive factors. Resting‐state EEG signals were collected from a diverse sample (countries = 10; healthy individuals = 1394 from Argentina, Brazil, Colombia, Chile, Cuba, Greece, Ireland, Italy, Turkey and United Kingdom). Complexity (fractal dimension, permutation entropy, Wiener entropy, spectral structure variability), power spectral and aperiodic components (1/f slope, knee, offset), as well as graph‐theoretic measures were analysed. Findings Despite variability in samples, data collection methods, and EEG acquisition parameters, structural inequality systematically predicted electrophysiological brain dynamics, proving to be a more crucial determinant of brain dynamics than individual‐level factors. Complexity and aperiodic activity metrics captured better the effects of structural inequality on brain function. Following inequality, age and cognition emerged as the most influential predictors. The overall results provided convergent multimodal metrics of biologic embedding of structural income inequality characterised by less complex signals, increased random asynchronous neural activity, and reduced alpha and beta power, particularly over temporoposterior regions. Conclusion These findings might challenge conventional neuroscience approaches that tend to overemphasise the influence of individual‐level factors, while neglecting structural factors. Results pave the way for neuroscience‐informed public policies aimed at tackling structural inequalities in diverse populations.

Published in Clinical and Translational Medicine

ISSN: 2001-1326 (Online)
Publisher: Wiley
Country of publisher: Australia
LCC subjects: Medicine: Medicine (General)
Website: https://onlinelibrary.wiley.com/journal/20011326

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