Thalamic volume and fear extinction interact to predict acute posttraumatic stress severity

Authors

Elizabeth R. Steuber
Antonia V. Seligowski
Alyssa R. Roeckner
Mariam Reda
Lauren A.M. Lebois
Sanne J.H. van Rooij
Vishnu P. Murty
Timothy D. Ely
Steven E. Bruce
Stacey L. House
Francesca L. Beaudoin
Xinming An
Donglin Zeng
Thomas C. Neylan
Gari D. Clifford
Sarah D. Linnstaedt
Laura T. Germine
Scott L. Rauch
Christopher A. Lewandowski, Henry Ford HealthFollow
Sophia Sheikh
Christopher W. Jones
Brittany E. Punches
Robert A. Swor
Meghan E. McGrath
Lauren A. Hudak
Jose L. Pascual
Anna M. Chang
Claire Pearson
David A. Peak
Robert M. Domeier
Brian J. O'Neil
Niels K. Rathlev
Leon D. Sanchez
Robert H. Pietrzak
Jutta Joormann
Deanna M. Barch
Diego A. Pizzagalli
James M. Elliott
Ronald C. Kessler
Karestan C. Koenen
Samuel A. McLean
Kerry J. Ressler
Tanja Jovanovic
Nathaniel G. Harnett
Jennifer S. Stevens

Recommended Citation

Steuber ER, Seligowski AV, Roeckner AR, Reda M, Lebois LAM, van Rooij SJH, Murty VP, Ely TD, Bruce SE, House SL, Beaudoin FL, An X, Zeng D, Neylan TC, Clifford GD, Linnstaedt SD, Germine LT, Rauch SL, Lewandowski C, Sheikh S, Jones CW, Punches BE, Swor RA, McGrath ME, Hudak LA, Pascual JL, Chang AM, Pearson C, Peak DA, Domeier RM, O'Neil BJ, Rathlev NK, Sanchez LD, Pietrzak RH, Joormann J, Barch DM, Pizzagalli DA, Elliott JM, Kessler RC, Koenen KC, McLean SA, Ressler KJ, Jovanovic T, Harnett NG, and Stevens JS. Thalamic volume and fear extinction interact to predict acute posttraumatic stress severity. J Psychiatr Res 2021; 141:325-332.

Document Type

Article

Publication Date

9-1-2021

Publication Title

Journal of psychiatric research

Abstract

Posttraumatic stress disorder (PTSD) is associated with lower gray matter volume (GMV) in brain regions critical for extinction of learned threat. However, relationships among volume, extinction learning, and PTSD symptom development remain unclear. We investigated subcortical brain volumes in regions supporting extinction learning and fear-potentiated startle (FPS) to understand brain-behavior interactions that may impact PTSD symptom development in recently traumatized individuals. Participants (N = 99) completed magnetic resonance imaging and threat conditioning two weeks following trauma exposure as part of a multisite observational study to understand the neuropsychiatric effects of trauma (AURORA Study). Participants completed self-assessments of PTSD (PTSD Checklist for DSM-5; PCL-5), dissociation, and depression symptoms two- and eight-weeks post-trauma. We completed multiple regressions to investigate relationships between FPS during late extinction, GMV, and PTSD symptom development. The interaction between thalamic GMV and FPS during late extinction at two weeks post-trauma predicted PCL-5 scores eight weeks (t (75) = 2.49, β = 0.28, p = 0.015) post-trauma. Higher FPS predicted higher PCL-5 scores in the setting of increased thalamic GMV. Meanwhile, lower FPS also predicted higher PCL-5 scores in the setting of decreased thalamic GMV. Thalamic GMV and FPS interactions also predicted posttraumatic dissociative and depressive symptoms. Amygdala and hippocampus GMV by FPS interactions were not associated with posttraumatic symptom development. Taken together, thalamic GMV and FPS during late extinction interact to contribute to adverse posttraumatic neuropsychiatric outcomes. Multimodal assessments soon after trauma have the potential to distinguish key phenotypes vulnerable to posttraumatic neuropsychiatric outcomes.

Medical Subject Headings

Amygdala; Extinction, Psychological; Fear; Hippocampus; Humans; Magnetic Resonance Imaging; Stress Disorders, Post-Traumatic

PubMed ID

34304036

Volume

141

First Page

325

Last Page

332