Medicine and Health

Computational memory capacity predicts aging and cognitive decline

M. Mijalkov, L. Storm, et al.

Using reservoir computing on anatomical brain networks from a lifespan cohort of 636 people, this study shows that a neural-network-derived "computational memory capacity" robustly marks aging and links to resting-state activity, white-matter integrity, locus coeruleus signal intensity and cognition, with replication in an independent cohort. Research conducted by Authors present in <Authors> tag.... show more

Abstract

Memory is a crucial cognitive function that deteriorates with age. However, this ability is normally assessed using cognitive tests instead of the architecture of brain networks. Here, we use reservoir computing, a recurrent neural network computing paradigm, to assess the linear memory capacities of neural-network reservoirs extracted from brain anatomical connectivity data in a lifespan cohort of 636 individuals. The computational memory capacity emerges as a robust marker of aging, being associated with resting-state functional activity, white matter integrity, locus coeruleus signal intensity, and cognitive performance. We replicate our findings in an independent cohort of 154 young and 72 old individuals. By linking the computational memory capacity of the brain network with cognition, brain function and integrity, our findings open new pathways to employ reservoir computing to investigate aging and age-related disorders.

Publisher

Nature Communications

Published On

Mar 20, 2025

Authors

Mite Mijalkov, Ludvig Storm, Blanca Zufiria-Gerbolés, Dániel Veréb, Zhilei Xu, Anna Canal-Garcia, Jiawei Sun, Yu-Wei Chang, Hang Zhao, Emiliano Gómez-Ruiz, Massimiliano Passaretti, Sara Garcia-Ptacek, Miia Kivipelto, Per Svenningsson, Henrik Zetterberg, Heidi Jacobs, Kathy Lüdge, Daniel Brunner, Bernhard Mehlig, Giovanni Volpe, Joana B. Pereira

DOI

https://doi.org/10.1038/s41467-025-57995-0

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