Litcius/Paper detail

Topological turning points across the human lifespan

Alexa Mousley, Richard A. I. Bethlehem, Fang‐Cheng Yeh, Duncan E. Astle

2025Nature Communications45 citationsDOIOpen Access PDF

Abstract

Structural topology develops non-linearly across the lifespan and is strongly related to cognitive trajectories. We gathered diffusion imaging from datasets with a collective age range of zero to 90 years old (N = 4,216). We analyzed how 12 graph theory metrics of organization change with age and projected these data into manifold spaces using Uniform Manifold Projection and Approximation. With these manifolds, we identified four major topological turning points across the lifespan - around nine, 32, 66, and 83 years old. These ages defined five major epochs of topological development, each with distinctive age-related changes in topology. These lifespan epochs each have a distinct direction of topological development and specific changes in the organizational properties driving the age-topology relationship. This study underscores the complex, non-linear nature of human development, with unique phases of topological maturation, which can only be illuminated with a multivariate, lifespan, population-level perspective.

Topics & Concepts

Topology (electrical circuits)Manifold (fluid mechanics)GraphCategory of topological spacesProjection (relational algebra)Range (aeronautics)Computer scienceTopological data analysisTopological manifoldGraph theoryCognitionNonlinear dimensionality reductionTopological entropy in physicsZero-dimensional spaceTopological quantum numberEvolutionary biologyTopological spaceMathematicsDiffusionTopological and Geometric Data AnalysisFunctional Brain Connectivity StudiesMorphological variations and asymmetry