Brain asymmetries from mid- to late life and hemispheric brain age

Max Korbmacher; Dennis van der Meer; Dani Beck; Ann-Marie G. de Lange; Eli Eikefjord; Arvid Lundervold; Ole A. Andreassen; Lars T. Westlye; Ivan I. Maximov

doi:10.1038/s41467-024-45282-3

Brain asymmetries from mid- to late life and hemispheric brain age

Max Korbmacher^*, Dennis van der Meer, Dani Beck, Ann-Marie G. de Lange, Eli Eikefjord, Arvid Lundervold, Ole A. Andreassen, Lars T. Westlye, Ivan I. Maximov^*

^*Corresponding author for this work

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

Abstract

The human brain demonstrates structural and functional asymmetries which have implications for ageing and mental and neurological disease development. We used a set of magnetic resonance imaging (MRI) metrics derived from structural and diffusion MRI data in N=48,040 UK Biobank participants to evaluate age-related differences in brain asymmetry. Most regional grey and white matter metrics presented asymmetry, which were higher later in life. Informed by these results, we conducted hemispheric brain age (HBA) predictions from left/right multimodal MRI metrics. HBA was concordant to conventional brain age predictions, using metrics from both hemispheres, but offers a supplemental general marker of brain asymmetry when setting left/right HBA into relationship with each other. In contrast to WM brain asymmetries, left/right discrepancies in HBA are lower at higher ages. Our findings outline various sex-specific differences, particularly important for brain age estimates, and the value of further investigating the role of brain asymmetries in brain ageing and disease development.The human brain is highly asymmetrical and increasingly so with age. Here the authors examine hemispheric brain age estimates, which provide additional insights into brain asymmetries.

Original language	English
Article number	956
Number of pages	14
Journal	Nature Communications
Volume	15
Issue number	1
DOIs	https://doi.org/10.1038/s41467-024-45282-3
Publication status	Published - 1 Feb 2024

Keywords

ANTERIOR CINGULATE CORTEX
WHITE-MATTER ASYMMETRY
HUMAN CEREBRAL-CORTEX
STRUCTURAL ASYMMETRY
DIFFUSION
MRI
HIPPOCAMPUS
ADDICTION
SYSTEM
GYRUS

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Cite this

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title = "Brain asymmetries from mid- to late life and hemispheric brain age",

abstract = "The human brain demonstrates structural and functional asymmetries which have implications for ageing and mental and neurological disease development. We used a set of magnetic resonance imaging (MRI) metrics derived from structural and diffusion MRI data in N=48,040 UK Biobank participants to evaluate age-related differences in brain asymmetry. Most regional grey and white matter metrics presented asymmetry, which were higher later in life. Informed by these results, we conducted hemispheric brain age (HBA) predictions from left/right multimodal MRI metrics. HBA was concordant to conventional brain age predictions, using metrics from both hemispheres, but offers a supplemental general marker of brain asymmetry when setting left/right HBA into relationship with each other. In contrast to WM brain asymmetries, left/right discrepancies in HBA are lower at higher ages. Our findings outline various sex-specific differences, particularly important for brain age estimates, and the value of further investigating the role of brain asymmetries in brain ageing and disease development.The human brain is highly asymmetrical and increasingly so with age. Here the authors examine hemispheric brain age estimates, which provide additional insights into brain asymmetries.",

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AU - van der Meer, Dennis

AU - Beck, Dani

AU - de Lange, Ann-Marie G.

AU - Eikefjord, Eli

AU - Lundervold, Arvid

AU - Andreassen, Ole A.

AU - Westlye, Lars T.

AU - Maximov, Ivan I.

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AB - The human brain demonstrates structural and functional asymmetries which have implications for ageing and mental and neurological disease development. We used a set of magnetic resonance imaging (MRI) metrics derived from structural and diffusion MRI data in N=48,040 UK Biobank participants to evaluate age-related differences in brain asymmetry. Most regional grey and white matter metrics presented asymmetry, which were higher later in life. Informed by these results, we conducted hemispheric brain age (HBA) predictions from left/right multimodal MRI metrics. HBA was concordant to conventional brain age predictions, using metrics from both hemispheres, but offers a supplemental general marker of brain asymmetry when setting left/right HBA into relationship with each other. In contrast to WM brain asymmetries, left/right discrepancies in HBA are lower at higher ages. Our findings outline various sex-specific differences, particularly important for brain age estimates, and the value of further investigating the role of brain asymmetries in brain ageing and disease development.The human brain is highly asymmetrical and increasingly so with age. Here the authors examine hemispheric brain age estimates, which provide additional insights into brain asymmetries.

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