Abstract
Disproportionate reactions to unexpected stimuli in the environment are a cardinal symptom of posttraumatic stress disorder (PTSD). Here, we test whether these heightened responses are associated with disruptions in distinct components of reinforcement learning. Specifically, using functional neuroimaging, a loss-learning task, and a computational model-based approach, we assessed the mechanistic hypothesis that overreactions to stimuli in PTSD arise from anomalous gating of attention during learning (i.e., associability). Behavioral choices of combat-deployed veterans with and without PTSD were fit to a reinforcement learning model, generating trial-by-trial prediction errors (signaling unexpected outcomes) and associability values (signaling attention allocation to the unexpected outcomes). Neural substrates of associability value and behavioral parameter estimates of associability updating, but not prediction error, increased with PTSD during loss learning. Moreover, the interaction of PTSD severity with neural markers of associability value predicted behavioral choices. These results indicate that increased attention-based learning may underlie aspects of PTSD and suggest potential neuromechanistic treatment targets.
Highlights
Posttraumatic stress disorder (PTSD) is debilitating and characterized by excessive behavioral, psychological, and physiological responses to unexpected stimuli (Pitman et al, 2012)
Veterans were assessed for PTSD using the Clinician Administered PTSD Scale (CAPS [Blake et al, 1995]) and for other psychiatric disorders with the Structured Clinical Interview for DSM-IV (SCID [First et al, 1996])
Neuroscience based approach and identified increased associability-based modulation of loss learning, neurally and behaviorally, in combat-deployed military veterans as a function of PTSD; prediction errors and unmodulated learning rate were unchanged by PTSD
Summary
Posttraumatic stress disorder (PTSD) is debilitating and characterized by excessive behavioral, psychological, and physiological responses to unexpected stimuli (Pitman et al, 2012). Clinical and empirical observations have documented the negative impact of salient cues on neural and behavioral functioning in PTSD, including heightened orienting to unexpected events, impaired extinction of learned fear, and unstable attention biases toward perceived threatening stimuli (Aupperle et al, 2012; Bar-Haim et al, 2007; Blair et al, 2013; Morey et al, 2009; Naim et al, 2015). As an initial step toward addressing this issue, we adopt a computational psychiatry approach (Montague et al, 2012; Wang and Krystal, 2014; Maia and Frank, 2011), using quantitative specification of neural and behavioral learning processes to investigate the neurocomputational substrates of PTSD
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