Hostname: page-component-78c5997874-lj6df Total loading time: 0 Render date: 2024-11-17T19:13:34.460Z Has data issue: false hasContentIssue false

Auditory Selective Attention and Event-Related Potentials in Schizophrenia

Published online by Cambridge University Press:  03 January 2018

Philip B. Ward*
Affiliation:
School of Psychiatry, University of NSW, Psychiatry Department, Prince of Wales Hospital, High St, Randwick, NSW, Australia 2031
Stanley V. Catts
Affiliation:
School of Psychiatry, University of NSW, Psychiatry Department, Prince of Wales Hospital, High St, Randwick, NSW, Australia 2031
Allison M. Fox
Affiliation:
Macquarie University, School of Behavioural Sciences, Sydney, NSW, Australia 2109
Patricia T. Michie
Affiliation:
Macquarie University, School of Behavioural Sciences, Sydney, NSW, Australia 2109
Neil McConaghy
Affiliation:
School of Psychiatry, University of NSW, Psychiatry Department, Prince of Wales Hospital, High St, Randwick, NSW, Australia 2031
*
Correspondence

Abstract

Brain ERPs were recorded in ten unmedicated schizophrenic patients and age- and sex-matched healthy controls during a multidimensional listening task. Patients showed a marked reduction in a long-duration attention-related negative ERP component, termed ‘processing negativity’ (PN), which was elicited by attended stimuli. The amplitude of PN was significantly correlated with SANS and SAPS scores of schizophrenic symptoms. The P300 component was also reduced in amplitude in patients, and was significantly correlated with SANS ratings of negative thought disorder. These findings provide neurophysiological evidence of impairment in the maintenance of selective attention and the cognitive processes associated with target detection among schizophrenic patients. The reduced PN in schizophrenics implicates frontostriatal pathways in the aetiology of attentional deficits in schizophrenia.

Type
Research Article
Copyright
Copyright © Royal College of Psychiatrists, 1991 

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

American Psychiatric Association (1980) Diagnostic and Statistical Manual of Mental Disorders (DSM–III). Washington, DC: APA.Google Scholar
Andreasen, N. C. (1982) Negative symptoms in schizophrenia: definition and reliability. Archives of General Psychiatry, 39, 784788.Google Scholar
Andreasen, N. C. (1984) The Scale for the Assessment of Positive Symptoms (SAPS). Iowa City: The University of Iowa.Google Scholar
Baribeau-Braun, J., Picton, T. W. & Gosselin, J.-Y. (1983) Schizophrenia: a neurophysiological evaluation of abnormal information processing. Science, 219, 874876.CrossRefGoogle ScholarPubMed
Bleuler, E. (1911) Dementia Praecox or The Group of Schizophrenias (trans. (1950) Zinkin, J.). New York: International University Press.Google Scholar
Crawley, J. C. W., Crow, T. J., Johnstone, E. C., et al (1986) Dopamine D2 receptors in schizophrenia studied in vivo. Lancet, ii, 224225.CrossRefGoogle ScholarPubMed
Duncan, C. C., Morihisa, J. M., Fawcett, R. W., et al (1987) P300 in schizophrenia: state or trait marker? Psychopharmacology Bulletin, 23, 497501.Google Scholar
Fuster, J. M. (1980) The Prefrontal Cortex. New York: Raven Press.Google Scholar
Hansen, J. C. & Hillyard, S. A. (1980) Endogenous brain potentials associated with selective auditory attention. Electroencephalography and Clinical Neurophysiology, 49, 277290.Google Scholar
Hansen, J. C. & Hillyard, S. A. (1983) Selective attention to multidimensional auditory stimuli in man. Journal of Experimental Psychology: Human Perception Performance, 9, 119.Google Scholar
Hess, E. J., Bracha, H. S., Kleinman, J. E., et al (1987) Dopamine receptor subtype imbalance in schizophrenia. Life Sciences, 40, 14871497.CrossRefGoogle ScholarPubMed
Hillyard, S. A., Hink, R. F., Schwent, V. L., et al (1973) Electrical signs of selective attention in the human brain. Science, 182, 177180.CrossRefGoogle ScholarPubMed
Hillyard, S. A. & Hansen, J. C. (1986) Attention: electrophysiological approaches. In Psychophysiology: Systems, Processes & Applications (eds M. G. H. Coles, E. Donchin & S. W. Porges). Amsterdam: Elsevier.Google Scholar
Hiramatsu, K., Kameyama, T., Niwa, S., et al (1983) Schizophrenic deficits in information processing as reflected in event-related potential abnormalities during syllable discrimination tasks. In Neurophysiological Correlates of Normal Cognition and Psychopathology (eds C. Perris, D. Kemali & M. Koukkou-Lehmann). Basel: Karger.Google Scholar
Kameyama, T., Niwa, S., Hiramatsu, K., et al (1987) Event-related potential correlates of psychotropic drug effects on attentional and hemispheric dysfunction in schizophrenia. In Cerebral Dynamics, Laterality and Psychopathology (eds R. Takahashi, P. Flor-Henry, J. Gruzelier, et al). Amsterdam: Elsevier.Google Scholar
Knight, R. T., Hillyard, S. A., Woods, D. L., et al (1981) The effects of frontal cortex lesions on event-related potentials during auditory selective attention. Electroencephalography and Clinical Neurophysiology, 52, 571582.CrossRefGoogle ScholarPubMed
Naatanen, R. (1982) Processing negativity – evoked potential reflection of selective attention. Psychological Bulletin, 92, 605640.CrossRefGoogle ScholarPubMed
Naatanen, R. & Michie, P. T. (1979) Early selective-attention effects on the evoked potential: a critical review and reinterpretation. Biological Psychology, 8, 81136.Google Scholar
Nuechterlein, K. H. & Dawson, M. E. (1984) Information processing and attentional functioning in the developmental course of schizophrenic disorders. Schizophrenia Bulletin, 10, 160203.Google Scholar
Overall, J. E. & Gorham, D. R. (1962) The brief psychiatric rating scale. Psychological Reports, 10, 799812.Google Scholar
Pritchard, W. S. (1981) Psychophysiology of P300. Psychological Bulletin, 89, 506540.Google Scholar
Pritchard, W. S. (1986) Cognitive event-related potential correlates of schizophrenia. Psychological Bulletin, 100, 4366.CrossRefGoogle ScholarPubMed
Roth, W. T., Horvath, T. B., Pfefferbaum, A., et al (1979) Late event-related potentials and schizophrenia. In Evoked Brain Potentials and Behaviour (ed. H. Begleiter). New York: Plenum.Google Scholar
Roth, W. T., Horvath, T. B., Pfefferbaum, A., et al (1980) Event related potentials in schizophrenics. Electroencephalography and Clinical Neurophysiology, 48, 127139.Google Scholar
Seeman, P., Ulpian, C., Bergeron, C., et al (1984) Bimodal distribution of dopamine receptor densities in brains of schizophrenics. Science, 225, 728731.CrossRefGoogle ScholarPubMed
Vasey, M. W. & Thayer, J. F. (1987) The continuing problem of false positives in repeated measures ANOVA in psychophysiology: multivariate solution. Psychophysiology, 24, 479486.Google Scholar
Venables, P. H. (1964) Input dysfunction in schizophrenia. In Advances in Experimental Personality Research, vol. 1 (ed. B. Maher). New York: Academic Press.Google Scholar
Ward, P. B., Catts, S. V., Armstrong, M. S., et al (1984) P300 and psychiatric vulnerability in university students. In Brain and Information: Event-related potentials (eds R. Karrer, J. Cohen & P. Tueting). New York: New York Academy of Sciences.Google Scholar
Ward, P. B., Catts, S. V. & McConaghy, N. (1991) An event-related potential correlate of thought disorder in normals. Biological Psychiatry (in press).Google Scholar
Wong, D. F., Wagner, H. N. Jr, Tune, L. E., et al (1986) Positron emission tomography reveals elevated D2 dopamine receptors in drug-naive schizophrenics. Science, 234, 15581564.Google Scholar
Woods, D. L. (1990) The physiological basis of selective attention: implications of event-related potential studies. In Event-Related Brain Potentials: Issues and Interdisciplinary Vantage (eds J. W. Rohrbaugh, R. Johnson & R. Parasuraman). New York: Oxford University Press.Google Scholar
World Health Organization (1978) Mental Disorders: Glossary and Guide to their Classification in Accordance with the Ninth Revision of the International Classification of Diseases (ICD–9). Geneva: WHO.Google Scholar
Submit a response

eLetters

No eLetters have been published for this article.