Table 1.
Studies included in the systematic review
| Ref. | Participants | Treatment | Treatment duration (wk) | Imaging method | Experimental task | Neural treatment effects | Direction of change |
| Cognitive remediation | |||||||
| Wykes et al[8] | SCH = 2 | CRT | 12 | SPECT | Verbal fluency | Bilateral frontal, temporal, parietal and occipital | ↑ |
| Penadés et al[9] | SCH = 2 | CRT | 12 | SPECT | Tower of London | Prefrontal activity | ↑ |
| Wexler et al[11] | SCH = 8 | CRT | 10 | fMRI | Auditory verbal memory | L inferior frontal | ↑ |
| Penadés et al[10] | SCH = 8 | CRT | 12 | SPECT | Tower of London | Prefrontal activity | ↑ |
| Wykes et al[12] | SCH = 12 HC =6 | CRT OC HC | 12 | fMRI | N-back | R inferior frontal gyrus and bilateral occipital activity | ↑ |
| Eack et al[20] | SCH = 53 | CET EST | 52 | MRI | - | Loss of GM in temporal cortex, including the L parahippocampal gyrus, L amygdala, bilateral anterior cingulate, and L hippocampus | ↓ |
| GM in L amygdala | ↑ | ||||||
| Haut et al[13] | SCH = 21 HC = 9 | CRT CBSST | 6 | fMRI | N-back, lexical task | L prefrontal activity | Case report series |
| Rowland et al[15] | SCH = 17 HC = 17 | CRT | < 1 | fMRI, VBM | L amygdala, bilateral inferior parietal regions | ↑ | |
| Controls also exhibited activation reductions in region and spatial extent with relational learning proficiency | ↓ | ||||||
| Edwards et al[14] | SCH = 22 HC = 14 | CRT | 22 | fMRI | Continuous performance task | R middle frontal R superior parietal cortex R inferior frontal junction R visual cortex Cerebellum | ↑↓ |
| Bor et al[16] | SCH = 20 HC = 15 | CRT | 8 | fMRI | N-back | L inferior/middle frontal gyrus, cingulate gyrus and inferior parietal lobule activity | ↑ |
| Subramaniam et al[19] | SCH = 31 HC = 16 | AT | 13 | fMRI | Word generation and recognition | Medial PFC activity | ↑ |
| Penadés et al[21] | SCH = 31 HC = 16 | CRT SST | 15 | fMRI, DTI | N-back | L superior parietal lobule and bilateral middle frontal gyri activity | ↑ |
| DMN activity in L precuneus and middle frontal gyrus | ↓ | ||||||
| FA in CC and R posterior thalamic radiations | ↑ | ||||||
| Vianin et al[22] | SCH = 16 | CRT | 8 | fMRI | Verbal fluency | Inferior parietal lobule, precentral gyrus, Broca’s area, middle occipital cortex, middle cingulate cortex, and superior parietal lobule activity | ↑ |
| Subramaniam et al[23] | HC = 15 SCH = 30 | AT | 15 | fMRI | N-back | Middle frontal and inferior frontal gyri activity | ↑ |
| Social-cognitive remediation | |||||||
| Haut et al[13] | SCH = 20 HC = 10 | TAR TAU | 10 | fMRI | Facial affect recognition | L middle and superior occipital lobe, R inferior and superior parietal cortex, and L and R inferior frontal cortex activity | ↑ |
| Combination of cognitive and social-cognitive remediation | |||||||
| Hooker et al[17] | SCH = 22 | AT + SCT | 11 | fMRI | Facial emotion recognition | Postcentral gyrus activity | ↑ |
| Hooker et al[18] | SCH = 22 | AT + SCT | 11 | fMRI | Facial emotion recognition | L and R amygdala, R putamen and R medial prefrontal cortex | ↑ |
SPECT: Single photon emission computed tomography; fMRI: Functional magnetic resonance imaging; GM: Grey matter; DMN: Default mode network; FA: Fractional anisotropy; CC: Corpus callosum; AT: Auditory-based cognitive training; SCT: Social cognitive training; SCH: Schizophrenia; HC: Healthy control.