Functional neuroimaging biomarkers of anhedonia response to escitalopram plus adjunct aripiprazole treatment for major depressive disorder Journal Articles uri icon

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abstract

  • Background Identifying neuroimaging biomarkers of antidepressant response may help guide treatment decisions and advance precision medicine. Aims To examine the relationship between anhedonia and functional neurocircuitry in key reward processing brain regions in people with major depressive disorder receiving aripiprazole adjunct therapy with escitalopram. Method Data were collected as part of the CAN-BIND-1 study. Participants experiencing a current major depressive episode received escitalopram for 8 weeks; escitalopram non-responders received adjunct aripiprazole for an additional 8 weeks. Functional magnetic resonance imaging (on weeks 0 and 8) and clinical assessment of anhedonia (on weeks 0, 8 and 16) were completed. Seed-based correlational analysis was employed to examine the relationship between baseline resting-state functional connectivity (rsFC), using the nucleus accumbens (NAc) and anterior cingulate cortex (ACC) as key regions of interest, and change in anhedonia severity after adjunct aripiprazole. Results Anhedonia severity significantly improved after treatment with adjunct aripiprazole. There was a positive correlation between anhedonia improvement and rsFC between the ACC and posterior cingulate cortex, ACC and posterior praecuneus, and NAc and posterior praecuneus. There was a negative correlation between anhedonia improvement and rsFC between the ACC and anterior praecuneus and NAc and anterior praecuneus. Conclusions Eight weeks of aripiprazole, adjunct to escitalopram, was associated with improved anhedonia symptoms. Changes in functional connectivity between key reward regions were associated with anhedonia improvement, suggesting aripiprazole may be an effective treatment for individuals experiencing reward-related deficits. Future studies are required to replicate our findings and explore their generalisability, using other agents with partial dopamine (D2) agonism and/or serotonin (5-HT2A) antagonism.

authors

  • Vaccarino, Sophie R
  • Wang, Shijing
  • Rizvi, Sakina J
  • Lou, Wendy
  • Hassel, Stefanie
  • MacQueen, Glenda M
  • Ho, Keith
  • Frey, Benicio
  • Lam, Raymond W
  • Milev, Roumen V
  • Rotzinger, Susan
  • Ravindran, Arun V
  • Strother, Stephen C
  • Kennedy, Sidney H

publication date

  • January 2024