Skip main navigation
Close Drawer MenuOpen Drawer Menu

The American Psychiatric Association (APA) has updated its Privacy Policy and Terms of Use, including with new information specifically addressed to individuals in the European Economic Area. As described in the Privacy Policy and Terms of Use, this website utilizes cookies, including for the purpose of offering an optimal online experience and services tailored to your preferences.

Please read the entire Privacy Policy and Terms of Use. By closing this message, browsing this website, continuing the navigation, or otherwise continuing to use the APA's websites, you confirm that you understand and accept the terms of the Privacy Policy and Terms of Use, including the utilization of cookies.

×
Back to table of contents
ArticleFull Access

Sensory Deficits and Distributed Hierarchical Dysfunction in Schizophrenia

Published Online:1 Jul 2010https://doi.org/10.1176/appi.ajp.2010.09030338

Abstract

Objective

Schizophrenia is characterized by widespread cognitive deficits that reflect distributed dysfunction across multiple cortical regions. Here the authors examined the relationship between lower- and higher-level dysfunction within the auditory domain using the event-related brain potentials mismatch negativity (MMN) and P300.

Method

Event-related brain potentials were obtained from 50 schizophrenia patients and 21 healthy subjects in two conditions: a standard condition employing fixed differences between standard tones and pitch deviants and a novel individualized condition employing tones matched to each individual's tone-discrimination threshold. The relationship among measures was assessed by multiple regression analysis and structural equation modeling.

Results

In the standard fixed-deviance condition, schizophrenia patients showed deficits of large effect size in generation of MMN (d>1.26) and P300 (d=1.08) relative to comparison subjects. Assessment of deviance-detection thresholds showed that patients required significantly elevated tone-matching thresholds relative to comparison subjects (d=0.97). When tone differences were individually adjusted to equate tone-matching performance across groups, the groups no longer differed significantly in MMN amplitude during deviant pitch tones, and the degree of deficit in P300 generation was significantly reduced. In both multiple regression analysis and structural equation modeling, MMN and diagnostic group were significant independent predictors of reduced P300 amplitude. MMN generation was well explained (>90% variance) by dipoles seeded within the bilateral auditory cortex.

Conclusions

These findings confirm and extend previous reports of impaired basic sensory processing in schizophrenia and demonstrate significant contributions of early sensory processing dysfunction to higher-order cognitive impairments. Overall, the findings support distributed, hierarchical models of cognitive impairment in schizophrenia, consistent with glutamatergic and other widespread neurochemical models of the disorder.