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Volume 73, Issue 4, Pages (February 2012)

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1 Volume 73, Issue 4, Pages 842-853 (February 2012)
Computerized Cognitive Training Restores Neural Activity within the Reality Monitoring Network in Schizophrenia  Karuna Subramaniam, Tracy L. Luks, Melissa Fisher, Gregory V. Simpson, Srikantan Nagarajan, Sophia Vinogradov  Neuron  Volume 73, Issue 4, Pages (February 2012) DOI: /j.neuron Copyright © 2012 Elsevier Inc. Terms and Conditions

2 Figure 1 Pretraining (Baseline) Performance and Brain Activation Differences between HC and SZ Subjects during a Reality Monitoring Task (A) Task design: example of events within one trial. (B) Behavior: mean accuracy averaged across three runs for self-generated and externally presented item identification is illustrated. One-way ANOVA, comparing mean raw scores for self-generated and externally presented item identification, reveals significant impairment in SZ subjects during accurate identification of self-generated items, but not for identification of externally presented items. One-way ANOVA, comparing mean d-prime statistical scores for overall source memory identification of word items between HC and SZ subjects, reveals significant impairment in SZ subjects during overall source-memory accuracy. (C) Signal increase in mPFC for the self-generated condition versus the externally presented condition across 15 HC subjects within the a priori mPFC ROI centered at coordinates (−4, 52, 8). See also Figure S1 and Table S1 for whole brain analyses at baseline in each group, across (A) 15 HC and (B) 31 SZ subjects. (D and E) Mean mPFC signal is illustrated in beta weights averaged across all voxels within the a priori spherical mPFC ROI. All error bars represent the SEM. Neuron  , DOI: ( /j.neuron ) Copyright © 2012 Elsevier Inc. Terms and Conditions

3 Figure 2 Cognitive Training Effects: Performance and Brain Activation Differences at 16 Weeks among Active Training SZ-AT Subjects, SZ-CG Subjects, and HC Subjects (A and B) Mean accuracy averaged across three runs for self-generated and externally presented item identification, d-prime scores, and mean mPFC signal are illustrated. Repeated-measures ANOVAs reveal group differences at 16 weeks compared to baseline in (A) self-generated item accuracy, but not externally presented item accuracy, and (B) D-prime scores for overall source memory identification of word items, as well as in mPFC reality monitoring signal averaged across all voxels within the a priori spherical ROI. (C) Reality monitoring activity in mPFC across 15 SZ-AT subjects after cognitive training compared to baseline within the a priori mPFC ROI. See also Figure S2 and Table S2 for the whole brain analyses of reality monitoring mPFC activity at 16 weeks versus baseline in each group, across (A) 15 SZ-AT, (B) 14 SZ-CG, and (C) 12 HC subjects. (D and E) Mean mPFC signal is illustrated in beta weights averaged across all voxels within the a priori spherical ROI in the SZ-AT group after training. All error bars represent the SEM. Neuron  , DOI: ( /j.neuron ) Copyright © 2012 Elsevier Inc. Terms and Conditions

4 Figure 3 Association of Reality Monitoring Performance and Medial Prefrontal Activation Levels with Verbal Memory in SZ-AT Subjects after 16 Weeks of Intervention (A) Partial two-tailed correlations, controlling for age, education, and IQ, show a significant association in SZ-AT subjects after 16 weeks of cognitive training (n = 16) between overall source memory accuracy on the reality monitoring task and delayed verbal memory recall. All error bars represent the SEM. (B) Two-tailed correlations show a significant association in SZ-AT subjects after 16 weeks of cognitive training (n = 15) between mPFC signal within the a priori ROI after 16 weeks with delayed verbal memory recall. Neuron  , DOI: ( /j.neuron ) Copyright © 2012 Elsevier Inc. Terms and Conditions

5 Figure 4 Social Functioning 6 Months after Cognitive Training
Two-tailed correlations show a significant association in SZ-AT subjects (n = 13) between reality monitoring mPFC signal within the a priori ROI at 16 weeks and social functioning ratings assessed 6 months after cognitive training was completed. All error bars represent the SEM. Neuron  , DOI: ( /j.neuron ) Copyright © 2012 Elsevier Inc. Terms and Conditions

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