| scholarly article | Q13442814 |
| P2093 | author name string | E A Clark | |
| Glenn R Wylie | |||
| P D Butler | |||
| D C Javitt | |||
| P2860 | cites work | Dissociating the role of the dorsolateral prefrontal and anterior cingulate cortex in cognitive control | Q29615016 |
| Subanesthetic effects of the noncompetitive NMDA antagonist, ketamine, in humans. Psychotomimetic, perceptual, cognitive, and neuroendocrine responses | Q29618915 | ||
| Recent advances in the phencyclidine model of schizophrenia | Q29618917 | ||
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| Ketamine impairs multiple cognitive domains in rhesus monkeys. | Q42124923 | ||
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| Deficits in auditory and visual context-dependent processing in schizophrenia: defining the pattern | Q46348068 | ||
| Effects of the NMDA antagonist ketamine on task-switching performance: evidence for specific impairments of executive control | Q46736571 | ||
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| Prefrontal cortex dysfunction mediates deficits in working memory and prepotent responding in schizophrenia | Q48413643 | ||
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| Dissociating executive mechanisms of task control following frontal lobe damage and Parkinson's disease | Q48454094 | ||
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| Role of the human medial frontal cortex in task switching: a combined fMRI and TMS study | Q48622017 | ||
| Who comes first? The role of the prefrontal and parietal cortex in cognitive control | Q48753734 | ||
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| On the origins of the task mixing cost in the cuing task-switching paradigm. | Q51985771 | ||
| Task set switching in schizophrenia. | Q52025440 | ||
| Decomposing components of task preparation with functional magnetic resonance imaging. | Q52089349 | ||
| Differential effects of cue changes and task changes on task-set selection costs. | Q52104823 | ||
| Components of switching intentional set. | Q52110918 | ||
| Reconfiguration of task-set: is it easier to switch to the weaker task? | Q52164999 | ||
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| Comparison of phencyclidine hydrochloride (Sernyl) with other drugs. Simulation of schizophrenic performance with phencyclidine hydrochloride (Sernyl), lysergic acid diethylamide (LSD-25), and amobarbital (Amytal) sodium; II. Symbolic and sequential | Q52767421 | ||
| Prefrontal cortex activation in task switching: an event-related fMRI study. | Q53922084 | ||
| Switching between univalent task-sets in schizophrenia: ERP evidence of an anticipatory task-set reconfiguration deficit. | Q54411300 | ||
| Schizophrenic subjects show deficient inhibition but intact task switching on saccadic tasks | Q57738829 | ||
| Don't think of a white bear: An fMRI investigation of the effects of sequential instructional sets on cortical activity in a task-switching paradigm | Q57785605 | ||
| Task-switching and long-term priming: Role of episodic stimulus–task bindings in task-shift costs | Q58375793 | ||
| Executive control functions in task switching: evidence from brain injured patients | Q73205935 | ||
| Schizophrenia and social structure | Q73384646 | ||
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| Switch and maintenance of task set in schizophrenia | Q82965825 | ||
| Impaired control of visual attention in schizophrenia | Q83883991 | ||
| P433 | issue | 3 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | schizophrenia | Q41112 |
| pathophysiology | Q1135939 | ||
| executive disfunction | Q5419936 | ||
| P304 | page(s) | 585-594 | |
| P577 | publication date | 2008-10-03 | |
| P1433 | published in | Schizophrenia Bulletin | Q4049133 |
| P1476 | title | Schizophrenia patients show task switching deficits consistent with N-methyl-d-aspartate system dysfunction but not global executive deficits: implications for pathophysiology of executive dysfunction in schizophrenia | |
| P478 | volume | 36 |
| Q34772481 | Cognitive effort avoidance and detection in people with schizophrenia |
| Q46821456 | Common and disease-specific dysfunctions of brain systems underlying attentional and executive control in schizophrenia and bipolar disorder |
| Q35839695 | Development of a Performance-Based Measure of Executive Functions in Patients with Schizophrenia |
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| Q55256851 | Enhanced switching and familial susceptibility for psychosis. |
| Q48300629 | Free visual exploration of natural movies in schizophrenia. |
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| Q30474021 | N-methyl-d-aspartate (NMDA) receptor dysfunction or dysregulation: the final common pathway on the road to schizophrenia? |
| Q30448209 | Nonhuman primate model of schizophrenia using a noninvasive EEG method |
| Q92018492 | People with schizophrenia show enhanced cognitive costs of maintaining a single item in working memory |
| Q34046060 | Reviewing the ketamine model for schizophrenia |
| Q55282106 | Speech-on-speech masking and psychotic symptoms in schizophrenia. |
| Q61800661 | The Dissociable Effects of Induced Positive and Negative Moods on Cognitive Flexibility |
| Q48095617 | The Energy Landscape of Neurophysiological Activity Implicit in Brain Network Structure. |
| Q37794502 | Thinking Glutamatergically: Changing Concepts of Schizophrenia Based Upon Changing Neurochemical Models |
| Q39478402 | Touchscreen-paradigm for mice reveals cross-species evidence for an antagonistic relationship of cognitive flexibility and stability |
| Q30406872 | When doors of perception close: bottom-up models of disrupted cognition in schizophrenia |
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