Habit and Skill Learning in Schizophrenia: Evidence of Normal Striatal Processing With Abnormal Cortical Input

Weickert, Thomas W.; Terrazas, Alejandro; Bigelow, Llewellyn B.; Malley, James D.; Hyde, Thomas M.; Egan, Michael; Weinberger, Daniel R.; Goldberg, Terry E.

doi:10.1101/lm.49102

Cited by 107 publications

(124 citation statements)

References 94 publications

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“…This result is consistent with the finding of several studies (Keri et al 2000;Weickert et al 2002;Beninger et al 2003;Keri et al 2005) indicating that the gradual acquisition of probabilistic contingencies in schizophrenia patients may be relatively intact, as well as the idea that different neural systems may support rapid and gradual feedback integration. The gradual integration of probabilistic feedback over many trials seems to rely more on the basal ganglia.…”

Section: Discussionsupporting

confidence: 82%

“…By contrast, there is evidence that the gradual acquisition of probabilistic contingencies depends more heavily on subcortical structures in the basal ganglia, and less on cortical structures (Knowlton et al 1996;Seger and Cincotta 2005). The results of multiple studies (Keri et al 2000;Weickert et al 2002;Beninger et al 2003;Keri et al 2005) suggest that the acquisition of probabilistic contingencies in schizophrenia patients may be relatively unimpaired, perhaps indicative of a relatively intact basal ganglia function in schizophrenia. Thus, patients with SZ could show intact initial discrimination learning, but impaired reversal learning.…”

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confidence: 78%

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Probabilistic reversal learning impairments in schizophrenia: Further evidence of orbitofrontal dysfunction

Waltz

Gold

2007

Schizophrenia Research

316

257

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Impairments in feedback processing and reinforcement learning appear to be prominent aspects of schizophrenia (SZ), which may relate to symptoms of the disorder. Evidence from cognitive neuroscience investigations indicates that disparate brain systems may underlie different kinds of feedback-driven learning. The ability to rapidly shift response tendencies in the face of negative feedback, when reinforcement contingencies are reversed, is an important type of learning thought to depend on ventral prefrontal cortex (PFC). Schizophrenia has long been associated with dysfunction in dorsolateral areas of PFC, but evidence for ventral PFC impairment in more mixed. In order to assess whether SZ patients experience particular difficulty in carrying out a cognitive function commonly linked to ventral PFC function, we administered to 34 patients and 26 controls a modified version of an established probabilistic reversal learning task from the experimental literature (Cools et al. 2002). Although SZ patients and controls performed similarly on the initial acquisition of probabilistic contingencies, patients showed substantial learning impairments when reinforcement contingencies were reversed, achieving significantly fewer reversals [Χ^2(6)=15.717, p=0.008]. Even when analyses were limited to subjects who acquired all probabilistic contingencies initially (22 patients and 20 controls), patients achieved significantly fewer reversals [Χ^2(3)=9.408, p=0.024]. These results support the idea that ventral PFC dysfunction is a prevalent aspect of schizophrenic pathophysiology, which may contribute to deficits in reinforcement learning exhibited by patients. Further studies are required to investigate the roles of dopaminergic systems in these impairments. Keywordsschizophrenia; dopamine; reinforcement; basal ganglia; prefrontal; orbitofrontal One of the most common neuropsychological findings in the schizophrenia (SZ) literature is that of impaired attentional set-shifting, as evidenced by studies using tasks like the Wisconsin Card Sort Test (WCST) and the intradimensional/extradimensional (ID/ED) attentional setshifting task. This deficit has often been linked to dysfunction of dorsolateral prefrontal cortex (DLPFC), one of the most frequently-observed neural correlates of schizophrenia (Weinberger et al. 1986;Berman et al. 1988). One possible source of set-shifting deficits in patients may be set-learning impairments related to limitations in DLPFC-dependent attentional and working memory resources. Another possible source of set-shifting difficulties, however, may be a specific impairment in reversing learned associations. The reversal of learned associations is known to depend on ventral and medial areas of prefrontal cortex (PFC) from a variety of studies involving both human and nonhuman animal subjects, including both lesion studies (Dias et al. 1996;Fellows and Farah 2003;Hornak et al. 2004) and those using physiological Corresponding Author: Dr. James Andrew Waltz, PhD, Maryland Psychiatric Research Center Pu...

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Section: Discussionsupporting

confidence: 82%

mentioning

confidence: 78%

Probabilistic reversal learning impairments in schizophrenia: Further evidence of orbitofrontal dysfunction

Waltz

Gold

2007

Schizophrenia Research

316

257

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“…Even so, participants can achieve almost optimal accuracy with an explicit strategy in which they simply respond on the basis of the presence or absence of the most informative card (i.e., approximately 73% correct). Because the weatherprediction task is probabilistic, and optimal accuracy requires information integration, it has often been assumed that learning in the task is mediated by a single system that recruits some implicit, incremental process (Knowlton et al, 1996;Weickert et al, 2002;Witt, Nuhsman, & Deuschl, 2002). However, our results suggest that explicit strategies should be common in the weather-prediction task, because a simple explicit strategy is nearly optimal.…”

Section: Discussioncontrasting

confidence: 44%

The effects of category overlap on information-integration and rule-based category learning

Ell

Ashby

2006

Perception & Psychophysics

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“…Thus, once an item is encoded successfully, it is not subject to rapid forgetting, translating into relatively normal savings. Second, patients have relatively intact procedural learning and probabilistic learning that may be responsible for stimulus response mappings (Weickert et al, 2002). To the extent that some practice-related improvement may be sub-served by such learning systems, patients may be expected to benefit from setting up more efficient responding patterns even if the core abilities indexed by the test are unaffected.…”

Section: Mechanisms Of Practice Effectsmentioning

confidence: 99%

Circumstances Under Which Practice Does Not Make Perfect: A Review of the Practice Effect Literature in Schizophrenia and Its Relevance to Clinical Treatment Studies

Goldberg

Keefe

Goldman

et al. 2010

Neuropsychopharmacol

118

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In this article, we review the literature on practice effects in schizophrenia, an underappreciated confound in interpreting cognitive improvement in clinical trials. We first examine claims regarding first-and second-generation antipsychotic medications as cognitive enhancers, and follow it with a discussion of recent studies demonstrating how practice or placebo effects may drive 'positive' findings. Thus, this review suggests that many previous findings can be reinterpreted in this light. Critically, we also make several suggestions about test construction, study design, and statistical analyses that the field might use to overcome this potential confound. Our suggestions may also have implications for drug discovery and regulatory approval of cognitive-enhancing adjunctive agents, in terms of study design and/or test psychometric characteristics, including the development of tests that are relatively insensitive to practicerelated changes. Such advances might be important for improving the methodology involved in the assessment of cognitive change in treatment studies.

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Habit and Skill Learning in Schizophrenia: Evidence of Normal Striatal Processing With Abnormal Cortical Input

Cited by 107 publications

References 94 publications

Probabilistic reversal learning impairments in schizophrenia: Further evidence of orbitofrontal dysfunction

Probabilistic reversal learning impairments in schizophrenia: Further evidence of orbitofrontal dysfunction

The effects of category overlap on information-integration and rule-based category learning

Circumstances Under Which Practice Does Not Make Perfect: A Review of the Practice Effect Literature in Schizophrenia and Its Relevance to Clinical Treatment Studies

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