Rapid instruction-based task learning (RITL) in schizophrenia.

Sheffield, Julia M.; Ruge, Hannes; Kandala, Sridhar; Deanna, M

doi:10.1037/abn0000354

Cited by 5 publications

(8 citation statements)

References 54 publications

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“…M. Silverstein et al 2012), early task-dependent processes have recently been shown to be impaired in schizophrenia. More specifically, rapid instructed task learning (RITL), the ability to rapidly transfer task instruction into goal-directed behavior, is reduced in schizophrenia, suggesting impaired learning processes (Sheffield et al 2018). Again, this overview is sparse compared to the impressive literature on cognitive impairment in chronic schizophrenia, but provides insight into the rich application of cognitive neuroscience research to understanding the generalized cognitive deficit across the life course of schizophrenia patients.…”

Section: Introductionmentioning

confidence: 99%

Cognitive Deficits in Psychotic Disorders: A Lifespan Perspective

Karcher²,

2018

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Individuals with disorders that include psychotic symptoms (i.e. psychotic disorders) experience broad cognitive impairments in the chronic state, indicating a dimension of abnormality associated with the experience of psychosis. These impairments negatively impact functional outcome, contributing to the disabling nature of schizophrenia, bipolar disorder, and psychotic depression. The robust and reliable nature of cognitive deficits has led researchers to explore the timing and profile of impairments, as this may elucidate different neurodevelopmental patterns in individuals who experience psychosis. Here, we review the literature on cognitive deficits across the life span of individuals with psychotic disorder and psychotic-like experiences, highlighting the dimensional nature of both psychosis and cognitive ability. We identify premorbid generalized cognitive impairment in schizophrenia that worsens throughout development, and stabilizes by the first-episode of psychosis, suggesting a neurodevelopmental course. Research in affective psychosis is less clear, with mixed evidence regarding premorbid deficits, but a fairly reliable generalized deficit at first-episode, which appears to worsen into the chronic state. In general, cognitive impairments are most severe in schizophrenia, intermediate in bipolar disorder, and the least severe in psychotic depression. In all groups, cognitive deficits are associated with functional outcome. Finally, while the generalized deficit is the clearest and most reliable signal, data suggests specific deficits in verbal memory across all groups, specific processing speed impairments in schizophrenia and executive functioning impairments in bipolar disorder. Cognitive deficits are a core feature of psychotic disorders that provide a window into understanding developmental course and risk for psychosis.

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Section: Introductionmentioning

confidence: 99%

Cognitive Deficits in Psychotic Disorders: A Lifespan Perspective

Karcher²,

2018

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“…Tracking these fine-grained representational dynamics is crucial for a comprehensive understanding of the rapid neural re-organization processes that are taking place during early implementation trials right after first-time task instruction. Such rapid neural re-organization processes have been evidenced in terms of both mean activity dynamics (Cole et al, 2010; Hartstra et al, 2011; Ruge and Wolfensteller, 2010; Sheffield et al, 2018) and connectivity dynamics (Hampshire et al, 2019; Mohr et al, 2016; Mohr et al, 2018; Ruge and Wolfensteller, 2013). Specifically, conventional univariate analysis of mean activity has shown that lateral PFC engagement was maximal during the first-time implementation, followed by a rapid decline across the first few implementation trials (Hampshire et al, 2019; Hartstra et al, 2011; Ruge and Wolfensteller, 2010).…”

Section: Introductionmentioning

confidence: 99%

Neural representation of newly instructed rule identities during early implementation trials

Ruge

Schäfer

Zwosta

et al. 2019

eLife

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By following explicit instructions, humans instantaneously get the hang of tasks they have never performed before. We used a specially calibrated multivariate analysis technique to uncover the elusive representational states during the first few implementations of arbitrary rules such as ‘for coffee, press red button’ following their first-time instruction. Distributed activity patterns within the ventrolateral prefrontal cortex (VLPFC) indicated the presence of neural representations specific of individual stimulus-response (S-R) rule identities, preferentially for conditions requiring the memorization of instructed S-R rules for correct performance. Identity-specific representations were detectable starting from the first implementation trial and continued to be present across early implementation trials. The increasingly fluent application of novel rule representations was channelled through increasing cooperation between VLPFC and anterior striatum. These findings inform representational theories on how the prefrontal cortex supports behavioral flexibility specifically by enabling the ad-hoc coding of newly instructed individual rule identities during their first-time implementation.

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“…Tracking these fine-grained representational dynamics is crucial for a comprehensive understanding of the rapid neural re-organization processes that are taking place right after first-time task instruction. Such rapid neural re-organization processes have been evidenced in terms of both mean activity dynamics [16][17][18][19] and connectivity dynamics [20][21][22][23] . Specifically, conventional univariate analysis of mean activity has shown that lateral PFC engagement was maximal right after instruction, followed by a rapid decline across the first few implementation trials 16,17,23 .…”

Section: Introductionmentioning

confidence: 99%

Initial neural representation of individual rules after first-time instruction

Ruge

Schaefer²,

Zwosta

et al. 2019

Preprint

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By following explicit instructions humans can instantaneously get the hang of tasks they have never performed before. Here, we used a specially calibrated multivariate analysis technique to uncover the elusive representational states following newly instructed arbitrary behavioural rules such as 'for coffee, press red button', while transitioning from 'knowing what to do' to 'actually doing it'. Subtle variation in distributed neural activity patterns reflected rule-specific representations within the ventrolateral prefrontal cortex (VLPFC), confined to instructed stimulus-response learning in contrast to incidental learning involving the same stimuli and responses. VLPFC representations were established right after first-time instruction and remained stable across early implementation trials. More and more fluent application of novel rule representations was channelled through increasing cooperation between VLPFC and anterior striatum. These findings inform representational theories on how the prefrontal cortex supports behavioural flexibility by enabling ad-hoc coding of novel task rules without recourse to familiar sub-routines

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Rapid instruction-based task learning (RITL) in schizophrenia.

Cited by 5 publications

References 54 publications

Cognitive Deficits in Psychotic Disorders: A Lifespan Perspective

Cognitive Deficits in Psychotic Disorders: A Lifespan Perspective

Neural representation of newly instructed rule identities during early implementation trials

Initial neural representation of individual rules after first-time instruction

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