Motivational deficits in schizophrenia relate to abnormalities in cortical learning rate signals |
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Authors: | D. Hernaus Z. Xu E. C. Brown R. Ruiz M. J. Frank J. M. Gold J. A. Waltz |
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Affiliation: | 1.Department of Psychiatry; Maryland Psychiatric Research Center,University of Maryland School of Medicine,Baltimore,USA;2.Duke University School of Medicine,Duke Neurobiology,Durham,USA;3.Hotchkiss Brain Institute,The University of Calgary,Calgary,Canada;4.Department of Cognitive, Linguistic & Psychological Sciences, Dept of Psychiatry and Human Behavior,Brown University,Providence,USA |
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Abstract: | Individuals from across the psychosis spectrum display impairments in reinforcement learning. In some individuals, these deficits may result from aberrations in reward prediction error (RPE) signaling, conveyed by dopaminergic projections to the ventral striatum (VS). However, there is mounting evidence that VS RPE signals are relatively intact in medicated people with schizophrenia (PSZ). We hypothesized that, in PSZ, reinforcement learning deficits often are not related to RPE signaling per se but rather their impact on learning and behavior (i.e., learning rate modulation), due to dysfunction in anterior cingulate and dorsomedial prefrontal cortex (dmPFC). Twenty-six PSZ and 23 healthy volunteers completed a probabilistic reinforcement learning paradigm with occasional, sudden, shifts in contingencies. Using computational modeling, we found evidence of an impairment in trial-wise learning rate modulation (α) in PSZ before and after a reinforcement contingency shift, expressed most in PSZ with more severe motivational deficits. In a subsample of 22 PSZ and 22 healthy volunteers, we found little evidence for between-group differences in VS RPE and dmPFC learning rate signals, as measured with fMRI. However, a follow-up psychophysiological interaction analysis revealed decreased dmPFC-VS connectivity concurrent with learning rate modulation, most prominently in individuals with the most severe motivational deficits. These findings point to an impairment in learning rate modulation in PSZ, leading to a reduced ability to adjust task behavior in response to unexpected outcomes. At the level of the brain, learning rate modulation deficits may be associated with decreased involvement of the dmPFC within a greater RL network. |
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