Communications Biology (Jul 2023)

Dynamic network properties of the superior temporal gyrus mediate the impact of brain age gap on chronic aphasia severity

  • Janina Wilmskoetter,
  • Natalie Busby,
  • Xiaosong He,
  • Lorenzo Caciagli,
  • Rebecca Roth,
  • Sigfus Kristinsson,
  • Kathryn A. Davis,
  • Chris Rorden,
  • Dani S. Bassett,
  • Julius Fridriksson,
  • Leonardo Bonilha

DOI
https://doi.org/10.1038/s42003-023-05119-z
Journal volume & issue
Vol. 6, no. 1
pp. 1 – 12

Abstract

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Abstract Brain structure deteriorates with aging and predisposes an individual to more severe language impairments (aphasia) after a stroke. However, the underlying mechanisms of this relation are not well understood. Here we use an approach to model brain network properties outside the stroke lesion, network controllability, to investigate relations among individualized structural brain connections, brain age, and aphasia severity in 93 participants with chronic post-stroke aphasia. Controlling for the stroke lesion size, we observe that lower average controllability of the posterior superior temporal gyrus (STG) mediates the relation between advanced brain aging and aphasia severity. Lower controllability of the left posterior STG signifies that activity in the left posterior STG is less likely to yield a response in other brain regions due to the topological properties of the structural brain networks. These results indicate that advanced brain aging among individuals with post-stroke aphasia is associated with disruption of dynamic properties of a critical language-related area, the STG, which contributes to worse aphasic symptoms. Because brain aging is variable among individuals with aphasia, our results provide further insight into the mechanisms underlying the variance in clinical trajectories in post-stroke aphasia.