Individual differences in gradients of intrinsic connectivity within the semantic network relate to distinct aspects of semantic cognition

Semantic cognition allows us to make sense of our varied experiences, including the words we hear and the objects we see. Contemporary accounts identify multiple interacting components that underpin semantic cognition, including diverse unimodal spoke systems that are integrated by a heteromodal hub, and control processes that allow us to access weakly-encoded as well as dominant aspects of knowledge to suit the circumstances. The current study examined how these dimensions of semantic cognition might be related to whole-brain-derived components (or gradients) of connectivity. A nonlinear dimensionality reduction technique was applied to resting-state functional magnetic resonance imaging from 176 participants to characterise the strength of two key connectivity gradients in each individual: the principal gradient captured the separation between unimodal and heteromodal cortex, while the second gradient corresponded to the distinction between motor and visual cortex. We then examined whether the magnitude of these gradients within the semantic network was related to specific aspects of semantic cognition by examining individual differences in semantic and non-semantic tasks. Participants whose intrinsic connectivity showed a better fit with Gradient 1 had faster identification of weak semantic associations. Furthermore, a better fit with Gradient 2 was linked to faster performance on picture semantic judgements. These findings show that individual differences in aspects of semantic cognition can be related to components of connectivity within the semantic network. (c) 2022 Elsevier Ltd. All rights reserved.

Automated summary

Semantic cognition is related to specific components of connectivity within the semantic network, as shown in a study using resting-state functional MRI. The strength of two key connectivity gradients, capturing the separation between unimodal and heteromodal cortex and the distinction between motor and visual cortex, was associated with individual differences in semantic cognition tasks.