Biology (Nov 2023)

Neurofeedback and Affect Regulation Circuitry in Depressed and Healthy Adolescents

  • Giang H. Nguyen,
  • Sewon Oh,
  • Corey Schneider,
  • Jia Y. Teoh,
  • Maggie Engstrom,
  • Carmen Santana-Gonzalez,
  • David Porter,
  • Karina Quevedo

DOI
https://doi.org/10.3390/biology12111399
Journal volume & issue
Vol. 12, no. 11
p. 1399

Abstract

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Neurodevelopmental psychopathology seeks to understand higher-order emotion regulation circuitry to develop new therapies for adolescents with depression. Depressed (N = 34) and healthy youth (N = 19) completed neurofeedback (NF) training and exhibited increased bilateral amygdala and hippocampus activity in the region of interest (ROI) analyses by recalling positive autobiographical memories. We tested factors supportive of the engagement of emotion regulation’s neural areas during NF (i.e., parental support, medication, and gender effects upon anterior cingulate cortex (ACC) engagement). Whole-brain analyses yielded effects of NF vs. control condition and effects of diagnosis. Youth showed higher amygdala and hippocampus (AMYHIPPO) activity during the NF vs. control condition, particularly in the left hippocampus. ACC’s activity was also higher during NF vs. control. Higher average ACC activity was linked to better parental support, absent depression, female gender, and absent medication. Control youth showed higher average AMYHIPPO and ACC activity throughout the task and a faster decline in activity vs. depressed youths. Whole-brain level analyses showed higher activity in the frontotemporal network during the NF vs. control conditions, suggesting targeting their connectivity in future neurofeedback trials.

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