A Core Pattern of Cerebellar and Brainstem Degeneration and Reduced Cerebrocerebellar Structural Covariance in Spinocerebellar Ataxia Type 3 (SCA3): MRI Volumetrics from ENIGMA-Ataxia

  1. Jason W. Robertson
  2. Isaac Adanyeguh
  3. David J. Arpin
  4. Tetsuo Ashizawa
  5. Benjamin Bender
  6. Fernando Cendes
  7. Xi Chen
  8. Giulia Coarelli
  9. Léo Coutinho
  10. Andreas Deistung
  11. Imis Dogan
  12. Alexandra Durr
  13. Jennifer Faber
  14. Juan Fernandez-Ruiz
  15. Mónica Ferreira
  16. Marcondes C. França
  17. Sophia L. Göricke
  18. Shuo Han
  19. Thomas Klockgether
  20. Chen Liu
  21. Jun Luo
  22. Alberto R. M. Martinez
  23. Sergio E. Ono
  24. Chiadi U. Onyike
  25. Gülin Öz
  26. Henry Paulson
  27. Jerry L. Prince
  28. Kathrin Reetz
  29. Thiago J. R. Rezende
  30. Matthis Synofzik
  31. Hélio A. Ghizoni Teive
  32. Sophia I. Thomopoulos
  33. Paul M. Thompson
  34. Dagmar Timmann
  35. David Vaillancourt
  36. Bart van de Warrenburg
  37. Judith van Gaalen
  38. Xingang Wang
  39. Philipp Wegner
  40. Sarah H. Ying
  41. ESMI MR Study Group
  42. EUROSCA MR Study Group
  43. Ian H. Harding
  44. Carlos R. Hernandez-Castillo
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Abstract

Objective

Spinocerebellar ataxia type 3 (SCA3) is a rare, inherited neurodegenerative disease. Here, we profile the spatial spread of atrophy across the whole brain, determine whether brain degeneration preferentially maps onto specific functional networks, and investigate the relationship between cerebellar and cerebral anatomical changes.

Methods

Whole-brain grey and white matter (GM and WM) voxel-based morphometry was performed on 408 individuals with SCA3 (82 pre-ataxic) and 293 controls. The SCA3 cohort was stratified by ataxia severity to investigate disease progression, with cerebellar GM atrophy mapped onto a task-based functional atlas. Volume was correlated with disease duration and intensity. Cerebrocerebellar volumetric covariance was assessed to determine whether atrophy was coupled between infra- and supratentorial regions.

Results

The pattern of atrophy is spatially consistent but progressive in magnitude across the disease course. The greatest atrophy was found in the pons, cerebellar WM, and cerebellar peduncles; correlations with disease severity and duration were also strongest in these regions. Cerebellar GM atrophy was greatest in functional regions associated with motor execution and planning, attention, and emotional processing. Sparse cerebral cortical atrophy appears only in the most severe disease subgroup, while striatal atrophy begins in the earliest stages. Reduced cerebrocerebellar structural covariance is observed in SCA3 participants versus controls.

Interpretation

While cerebellar and brainstem atrophy become more severe, the pattern of atrophy remains largely consistent as SCA3 progresses. Cerebellar GM degeneration occurs in regions associated with motor, cognitive, and affective control, in line with clinical presentation. Cerebellar atrophy is not directly mirrored by cerebral changes.

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  1. Version published to 10.1101/2025.08.08.669370 on bioRxiv