Neighborhood Disadvantage and Neural Correlates of Threat and Reward Processing in Survivors of Recent Trauma

Authors

E. Kate Webb, McLean Hospital
Timothy D. Ely, Emory University School of Medicine
Grace E. Rowland, McLean Hospital
Lauren A.M. Lebois, McLean Hospital
Sanne J.H. van Rooij, Emory University School of Medicine
Steven E. Bruce, Emory University School of Medicine
Tanja Jovanovic, Wayne State University School of Medicine
Stacey L. House, Washington University School of Medicine in St. Louis
Francesca L. Beaudoin, Brown University
Xinming An, UNC School of Medicine
Thomas C. Neylan, University of California, San Francisco
Gari D. Clifford, Emory University School of Medicine
Sarah D. Linnstaedt, UNC School of Medicine
Laura T. Germine, Harvard Medical School
Kenneth A. Bollen, College of Arts & Sciences
Scott L. Rauch, Harvard Medical School
John P. Haran, University of Massachusetts Chan Medical School
Alan B. Storrow, Vanderbilt University Medical Center
Christopher Lewandowski, Henry Ford Health Care System
Paul I. Musey, Indiana University School of Medicine
Phyllis L. Hendry, University of Florida College of Medicine
Sophia Sheikh, University of Florida College of Medicine
Christopher W. Jones, Cooper Medical School of Rowan University
Brittany E. Punches, The Ohio State University College of Medicine
Robert A. Swor, Oakland University William Beaumont School of Medicine
Jose L. Pascual, University of Pennsylvania Perelman School of Medicine
Mark J. Seamon, University of Pennsylvania Perelman School of Medicine
Elizabeth M. Datner, Einstein Healthcare Network
Claire Pearson, Wayne State University School of Medicine
David A. Peak, Massachusetts General Hospital
Roland C. Merchant, Brigham and Women's Hospital
Robert M. Domeier, Trinity Health - Novi

Document Type

Article

Abstract

IMPORTANCE Differences in neighborhood socioeconomic characteristics are important considerations in understanding differences in risk vs resilience in mental health. Neighborhood disadvantage is associated with alterations in the function and structure of threat neurocircuitry. OBJECTIVE To investigate associations of neighborhood disadvantage with white and gray matter and neural reactivity to positive and negative stimuli in the context of trauma exposure. DESIGN, SETTING, AND PARTICIPANTS In this cross-sectional study, survivors of trauma who completed sociodemographic and posttraumatic symptom assessments and neuroimaging were recruited as part of the Advancing Understanding of Recovery After Trauma (AURORA) study between September 2017 and June 2021. Data analysis was performed from October 25, 2022, to February 15, 2023. EXPOSURE Neighborhood disadvantage was measured with the Area Deprivation Index (ADI) for each participant home address. MAIN OUTCOMES AND MEASURES Participants completed separate threat and reward tasks during functional magnetic resonance imaging. Diffusion-weighted and high-resolution structural images were also collected. Linear models assessed the association of ADI with reactivity, microstructure, and macrostructure of a priori regions of interest after adjusting for income, lifetime trauma, sex at birth, and age. A moderated-mediation model tested whether ADI was associated with neural activity via microstructural changes and if this was modulated by PTSD symptoms. RESULTS A total of 280 participants (183 females [65.4%]; mean [SD] age, 35.39 [13.29] years) completed the threat task and 244 participants (156 females [63.9%]; mean [SD] age, 35.10 [13.26] years) completed the reward task. Higher ADI (per 1-unit increase) was associated with greater insula (t274 = 3.20; β = 0.20; corrected P = .008) and anterior cingulate cortex (ACC; t274 = 2.56; β = 0.16; corrected P = .04) threat-related activity after considering covariates, but ADI was not associated with reward reactivity. Greater disadvantage was also associated with altered microstructure of the cingulum bundle (t274 = 3.48; β = 0.21; corrected P = .001) and gray matter morphology of the ACC (cortical thickness: t273 = −2.29; β = −0.13; corrected P = .02; surface area: t273 = 2.53; β = 0.13; corrected P = .02). The moderated-mediation model revealed that ADI was associated with ACC threat reactivity via cingulum microstructural changes (index of moderated mediation = −0.02). However, this mediation was only present in individuals with greater PTSD symptom severity (at the mean: β = −0.17; standard error = 0.06, t= −2.28; P = .007; at 1 SD above the mean: β = −0.28; standard error = 0.08; t = −3.35; P < .001). CONCLUSIONS AND RELEVANCE In this study, neighborhood disadvantage was associated with neurobiology that supports threat processing, revealing associations of neighborhood disadvantage with neural susceptibility for PTSD and suggesting how altered structure-function associations may complicate symptoms. Future work should investigate specific components of neighborhood disadvantage that may be associated with these outcomes.

Publication Date

9-1-2023

Volume

6

Issue

9

DOI

10.1001/jamanetworkopen.2023.34483

Recommended Citation

Webb, E. Kate; Ely, Timothy D.; Rowland, Grace E.; Lebois, Lauren A.M.; van Rooij, Sanne J.H.; Bruce, Steven E.; Jovanovic, Tanja; House, Stacey L.; Beaudoin, Francesca L.; An, Xinming; Neylan, Thomas C.; Clifford, Gari D.; Linnstaedt, Sarah D.; Germine, Laura T.; Bollen, Kenneth A.; Rauch, Scott L.; Haran, John P.; Storrow, Alan B.; Lewandowski, Christopher; Musey, Paul I.; Hendry, Phyllis L.; Sheikh, Sophia; Jones, Christopher W.; Punches, Brittany E.; Swor, Robert A.; Pascual, Jose L.; Seamon, Mark J.; Datner, Elizabeth M.; Pearson, Claire; Peak, David A.; Merchant, Roland C.; and Domeier, Robert M., "Neighborhood Disadvantage and Neural Correlates of Threat and Reward Processing in Survivors of Recent Trauma" (2023). Psychology Faculty Works. 120.
DOI: https://doi.org/10.1001/jamanetworkopen.2023.34483
Available at: https://irl.umsl.edu/psychology-faculty/120