Prediction of psychosis by mismatch negativity.

BACKGROUND: To develop risk-adapted prevention of psychosis, an accurate estimation of the individual risk of psychosis at a given time is needed. Inclusion of biological parameters into multilevel prediction models is thought to improve predictive accuracy of models on the basis of clinical variables. To this aim, mismatch negativity (MMN) was investigated in a sample clinically at high risk, comparing individuals with and without subsequent conversion to psychosis. METHODS: At baseline, an auditory oddball paradigm was used in 62 subjects meeting criteria of a late risk at-state who remained antipsychotic-naive throughout the study. Median follow-up period was 32 months (minimum of 24 months in nonconverters, n = 37). Repeated-measures analysis of covariance was employed to analyze the MMN recorded at frontocentral electrodes; additional comparisons with healthy controls (HC, n = 67) and first-episode schizophrenia patients (FES, n = 33) were performed. Predictive value was evaluated by a Cox regression model. RESULTS: Compared with nonconverters, duration MMN in converters (n = 25) showed significantly reduced amplitudes across the six frontocentral electrodes; the same applied in comparison with HC, but not FES, whereas the duration MMN in in nonconverters was comparable to HC and larger than in FES. A prognostic score was calculated based on a Cox regression model and stratified into two risk classes, which showed significantly different survival curves. CONCLUSIONS: Our findings demonstrate the duration MMN is significantly reduced in at-risk subjects converting to first-episode psychosis compared with nonconverters and may contribute not only to the prediction of conversion but also to a more individualized risk estimation and thus risk-adapted prevention.

Auditory P300 in individuals clinically at risk for psychosis.

BACKGROUND: Alterations of the auditory evoked P300 potential are among the most reliable biological markers of schizophrenia. The aim of this study was to assess the amplitude, latency, and topography of the P300 in individuals at clinical high risk for psychosis. METHODS: P300 event-related potentials were acquired with an auditory oddball paradigm from 100 patients putatively in an early initial prodromal state (EIPS) for psychosis or in a late initial prodromal state (LIPS), according to the criteria of the German Research Network on Schizophrenia, and from 40 healthy controls comparable with respect to age, gender, and estimated verbal IQ. RESULTS: In the LIPS group, P300 amplitude was significantly smaller at midline and left hemispheric electrodes in comparison with controls. In the EIPS group, P300 amplitude was significantly reduced at a left temporoparietal site (TP7). A family history of schizophrenia was associated with smaller posterior P300 amplitudes in high-risk individuals. Midline P300 amplitudes were smaller in LIPS who had experienced already brief limited intermittent psychotic symptoms. CONCLUSION: Smaller P300 amplitudes are present prior to a putative onset of psychosis in high-risk individuals. Selective left temporoparietal amplitude deficits may indicate a trait-like abnormality whereas deficits at sagittal midline electrodes may be partly determined by the changes that underlie the appearance of psychotic symptoms. P300 amplitude may be associated with left superior temporal lobe maturation abnormalities followed by further functional impairments later in life. Our follow-up study will reveal whether P300 amplitude alterations predict psychosis and help to targeting early intervention.

Sensory gating in schizophrenia: P50 and N100 gating in antipsychotic-free subjects at risk, first-episode, and chronic patients.

BACKGROUND: Abnormal sensory gating in schizophrenia has frequently been reported; however, only limited data on unmedicated patients and patients at risk to develop a psychosis have, as yet, been available. METHODS: P50 and N100 suppression were assessed with an auditory double-click paradigm in five groups: 18 at-risk subjects who did not develop a full psychosis within the follow-up period of 2 years, 21 truly prodromal subjects who developed frank psychosis within the follow-up period, 46 antipsychotic-naïve subjects with first-episode schizophrenia, 20 antipsychotic-free subjects with chronic schizophrenia, and 46 healthy control subjects. RESULTS: P50 and N100 suppression indices differed significantly between groups and were lowest in chronic schizophrenia patients. Compared with healthy control subjects, P50 suppression was significantly impaired in at-risk subjects, truly prodromal and first-episode patients (stimulus 2 [S2]/stimulus 1 [S1] P50 amplitude ratio), and chronic schizophrenia patients (difference and ratio), and N100 suppression was significantly reduced in truly prodromal and first-episode patients (S1-S2 difference) and in chronic schizophrenia patients (difference and ratio) but not at-risk subjects. At-risk subjects with and without conversion to psychosis did not significantly differ on any test parameter. CONCLUSIONS: Sensory gating is already impaired in early stages of schizophrenia, though this is most prominent in chronic stages. Future studies will have to clarify the type and impact of variables modifying sensory gating disturbances, such as illness progression and genetic load. Furthermore, the meaning and nature of differences between P50 and N100 suppression need further elucidation.

Neural correlates of working memory dysfunction in first-episode schizophrenia patients: an fMRI multi-center study.

Working memory dysfunction is a prominent impairment in patients with schizophrenia. Our aim was to determine cerebral dysfunctions by means of functional magnetic resonance imaging (fMRI) in a large sample of first-episode schizophrenia patients during a working memory task. 75 first-episode schizophrenia patients and 81 control subjects, recruited within a multi-center study, performed 2- and 0-back tasks while brain activation was measured with fMRI. In order to guarantee comparability between data quality from different scanners, we developed and adopted a standardized, fully automated quality assurance of scanner hard- and software as well as a measure for in vivo data quality. After these quality-control measures had been implemented, 48 patients and 57 controls were included in the final analysis. During attention-related processes, even when the performance between patients and controls was comparable, there was a recognizable emergence of cerebral dysfunctions with hypoactivations in the ventrolateral prefrontal cortex (VLPFC), in the superior temporal cortex and in the thalamus. During working memory performance, parietal hypoactivations, especially in the precuneus, were prominent and were accompanied by poorer performance in patients. A hyperfrontality emerged in the ventrolateral prefrontal cortex. Hence, results point to a dysfunctional ventrolateral prefrontal-parietal network during working memory in patients, suggesting impairments in basic functions such as retrieval, storage and maintenance. The brain activation pattern of this large and significant sample of first-episode schizophrenia patients indicates an imbalanced system failing to adjust the amount of brain activity required in the cerebral network involved in attention and working memory.

Impaired mismatch negativity generation in prodromal subjects and patients with schizophrenia.

BACKGROUND: Mismatch negativity (MMN) specifically the response to tone duration deviants has consistently been shown to be reduced in schizophrenia suggesting dysfunction in auditory sensory memory. As part of a multidimensional approach to the early recognition of psychosis, MMN was investigated as a possible risk factor for later development of psychosis in subjects with a prodromal syndrome. Forty-three prodromal subjects, 31 neuroleptic-free inpatients with schizophrenia and 33 healthy controls were studied. A prodromal state was defined by a cluster 'Cognitive Disturbances' as defined by the 'Bonn Scale for the Assessment of Basic Symptoms' (BSABS), which was found highly predictive of first-episode schizophrenia. To elicit MMN, a three-tone auditory oddball paradigm with 10% 'duration deviants' and 10% 'frequency deviants' was used. RESULTS: MMN amplitudes to tone duration deviants were significantly reduced in the patients with schizophrenia compared to controls. The putatively prodromal subjects also showed a slight, though non-significant reduction of the MMN amplitude that was intermediate between normal controls and patients with schizophrenia, and with a larger within-group variance. CONCLUSION: These results support the view that abnormalities in temporal processing are particularly pronounced in patients with schizophrenia. Prodromal subjects are a heterogeneous group with regard to outcome and time until transition to a first psychotic episode. Follow-up of these putatively prodromal subjects will show whether MMN amplitudes further reduce over time in those developing psychosis and if a reduction is state-dependent.