Functional Connectivity Gradients Reveal Altered Hierarchical Cortical Organization in Functional Neurological Disorder

  1. Christiana Westlin
  2. Andrew J. Guthrie
  3. Cristina Bleier
  4. Sara A. Finkelstein
  5. Julie Maggio
  6. Jessica Ranford
  7. Julie MacLean
  8. Ellen Godena
  9. Daniel Millstein
  10. Jennifer Freeburn
  11. Caitlin Adams
  12. Christopher D. Stephen
  13. Ibai Diez
  14. David L. Perez
  15. Yuta Katsumi
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Abstract

Background

Neuroimaging studies of functional neurological disorder (FND), a condition at the intersection of psychiatry and neurology, often rely on discrete connections or parcellations that may obscure the brain’s functional network architecture. This study applied a gradient-based approach to examine macroscale cortical organization in FND.

Methods

We analyzed resting-state functional magnetic resonance imaging (fMRI) data from 64 patients with mixed FND (FND-mixed), 61 age- and sex-matched healthy controls (HCs), and 62 psychiatric controls (PCs) matched on age, sex, depression, anxiety, and post-traumatic stress disorder (PTSD) severity. Functional connectivity gradients were computed to capture dominant axes of cortical organization. Between-group comparisons were conducted for the top three gradients, and associations with symptom severity were investigated. Subtype-specific patterns in functional motor disorder (n=49) and functional seizure (n=24) were also examined. Analyses controlled for age, sex, and antidepressant use, and werepost-hocadjusted for depression, anxiety, and PTSD-severity, and for childhood maltreatment.

Results

The FND-mixed group showed alterations across all three gradients relative to HCs and PCs. Gradient 1 revealed increased values in sensorimotor regions, reflecting a shift toward more association-like connectivity. Gradient 2 showed altered differentiation between sensory systems. Gradient 3 exhibited reduced functional separation between representational and modulatory regions, with prominent shifts in the anterior cingulate cortex. Several regions displaying between-group differences also showed correlations with FND and somatic symptom severity. Analyses revealed overlapping and distinct patterns across subtypes.

Conclusions

We provide novel evidence of atypical hierarchical brain organization in FND, highlighting gradient-based approaches for identifying mechanistically-relevant altered functional brain organization.

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