Brain age is longitudinally associated with sensorimotor impairment and mild cognitive impairment in subacute stroke

  1. Octavio Marin-Pardo
  2. Mahir H. Khan
  3. Stuti Chakraborty
  4. Michael R. Borich
  5. Mayerly Castillo
  6. James H. Cole
  7. Steven C. Cramer
  8. Miranda R. Donnelly
  9. Emily E. Fokas
  10. Niko H. Fullmer
  11. Jeanette R. Gumarang
  12. Leticia Hayes
  13. Hosung Kim
  14. Amisha Kumar
  15. Emily. A. Marks
  16. Emily R. Rosario
  17. Heidi M. Schambra
  18. Nicolas Schweighofer
  19. Grace C. Song
  20. Myriam Taga
  21. Bethany P. Tavenner
  22. Carolee Winstein
  23. Sook-Lei Liew
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Abstract

BACKGROUND

Brain age, a proxy of overall brain health estimated from structural neuroimaging, has been associated with sensorimotor performance in chronic stroke. Similarly, post-stroke cognitive outcomes have been associated with accelerated brain aging. However, the relationships between brain age, sensorimotor, and cognitive outcomes in early subacute stroke (<3 months after onset) are less understood.

METHODS

In this work, we investigated associations between stroke survivors’ brain-predicted age difference (brain-PAD, quantified as a person’s brain age minus their chronological age) and longitudinal measurements of motor impairment (Fugl-Meyer Upper Extremity Assessment [FMUE]) and cognitive impairment (Montreal Cognitive Assessment [MoCA]) in subacute stroke. We used high-resolution T1-weighted MRIs from 44 participants at baseline and three months after stroke onset to investigate associations between brain-PAD, MoCA, and FMUE scores with robust linear mixed-effects regression models and mediation analyses.

RESULTS

We found negative associations between baseline brain-PAD and FMUE at baseline (β=-0.87, p=0.029) and three months (β=-0.87, p=0.011). Baseline brain-PAD was also negatively correlated with MoCA at three months (β=-0.13, p=0.015) but not at baseline (β=-0.11, p=0.141). Baseline brain-PAD was not associated with changes in FMUE (β=-0.01, p=0.930) or MoCA (β=-0.03, p=0.579). Finally, MoCA was not associated with FMUE at either time point, nor did it mediate the relationship between brain-PAD and FMUE.

CONCLUSION

Overall, we show that baseline brain age predicts both motor and cognitive outcomes at three months. However, motor and cognitive outcomes are not directly associated with one other. This suggests that brain age is representative of changes in multiple, distinct neurological pathways post-stroke. Further research with longer time intervals is needed to examine whether brain age also predicts chronic stroke outcomes.

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  1. Version published to 10.1101/2024.12.18.24319276v1 on medRxiv