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Magnetic Resonance Imaging and Single Photon Emission Tomography in Treatment-Responsive and Treatment-Resistant Schizophrenia

Published online by Cambridge University Press:  02 January 2018

Stephen M. Lawrie ,
Gordon T. Ingle ,
Celestine G. Santosh ,
Andrew C. Rogers ,
J. Ewen Rimmington ,
Kaliprasad P. Naidu ,
Jonathan J. K. Best ,
Ronan E. O'Carroll ,
Guy M. Goodwin  and
Klaus P. Ebmeier
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Stephen M. Lawrie*
Affiliation:
Edinburgh University Department of Psychiatry
Gordon T. Ingle
Affiliation:
Edinburgh University Department of Psychiatry
Celestine G. Santosh
Affiliation:
Magnetic Resonance Imaging Unit, Edinburgh University Department of Medical Radiology
Andrew C. Rogers
Affiliation:
Edinburgh University Department of Psychiatry
J. Ewen Rimmington
Affiliation:
Magnetic Resonance Imaging Unit, Edinburgh University Department of Medical Radiology
Kaliprasad P. Naidu
Affiliation:
Magnetic Resonance Imaging Unit, Edinburgh University Department of Medical Radiology
Jonathan J. K. Best
Affiliation:
Magnetic Resonance Imaging Unit, Edinburgh University Department of Medical Radiology
Ronan E. O'Carroll
Affiliation:
MRC Brain Metabolism Unit, Royal Edinburgh Hospital
Guy M. Goodwin
Affiliation:
MRC Brain Metabolism Unit, Royal Edinburgh Hospital
Klaus P. Ebmeier
Affiliation:
MRC Brain Metabolism Unit, Royal Edinburgh Hospital
Eve C. Johnstone
Affiliation:
Edinburgh University Department of Psychiatry
*
Dr Stephen M. Lawrie, Edinburgh University Department of Psychiatry, Kennedy Tower, Royal Edinburgh Hospital, Morningside Park, Edinburgh EH10 5HF
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Abstract

Background

Patients with schizophrenia differ from controls in several measures of brain structure and function, but it is uncertain how these relate to clinical features of the illness. We dichotomised patient groups by treatment response to test the hypothesis that treatment-resistant patients exhibit more marked biological abnormalities than treatment-responsive parients.

Method

Twenty treatment-responsive and 20 treatment-resistant patients with schizophrenia, matched for sex, age, and illness duration, were compared by magnetic resonance imaging, single photon emission tomography, and detailed neuropsychological assessment.

Results

Brain-imaging variables were not statistically related to treatment response, although poorly responsive patients had lower volumes of most brain structures. Several highly significant differences emerged between patient groups on neuropsychological testing. Episodic memory functioning distinguished patient groups even after we controlled for global cognitive impairment.

Conclusions

Cerebral structure and blood flow have a limited effect on treatment response in schizophrenia, but long-term episodic memory impairment is associated with, and may predict, poor prognosis.

Type
Papers
Information
The British Journal of Psychiatry , Volume 167 , Issue 2 , August 1995 , pp. 202 - 210
Copyright
Copyright © 1995 The Royal College of Psychiatrists 

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References

American Psychiatric Association (1987) Diagnostic and Statistical Manual of Mental Disorders (3rd edn, revised) (DSM–III–R). Washington, DC: APA.Google Scholar
Barta, P. E., Pearlson, G. D., Powers, R. E., et al (1990) Auditory hallucinations and smaller superior temporal gyral volume in schizophrenia. American Journal of Psychiatry, 147, 14571462.Google ScholarPubMed
Bogerts, B., Lieberman, J. A., Ashtari, M., et al (1993) Hippocampus-amygdala volumes and psychopathology in chronic schizophrenia. Biological Psychiatry, 33, 236246.Google Scholar
Buchanan, R. W., Breier, A., Kirkpatrick, B., et al (1993) Structural abnormalities in deficit and nondeficit schizophrenia. American Journal of Psychiatry, 150, 5965.Google Scholar
Cooper, B. (1961) Social class and prognosis in schizophrenia. I and II. British Journal of Preventative and Social Medicine, 15, 1741.Google Scholar
Daniel, D. G., Goldberg, T. E., Gibbons, R. D., et al (1991) Lack of a bimodal distribution of ventricular size in schizophrenia: a Gaussian mixture analysis of 1056 cases and controls. Biological Psychiatry, 30, 887903.Google Scholar
Delisi, L. E., Stritzke, P., Riordan, H., et al (1992) The timing of brain morphological changes in schizophrenia and their relationship to clinical outcome. Biological Psychiatry, 31, 241254.CrossRefGoogle ScholarPubMed
Ebmeier, K. P. (1994) Brain imaging and schizophrenia. In Advances in the Neurobiology of Schizophrenia (eds Den Boer, J. A., Westenberg, H. G. M. & von Praag, H. M.), pp. 131155. New York: Wiley.Google Scholar
Frith, C. D., Leary, J., Cahill, C. & Johnstone, E. C. (1991) Disabilities and circumstances of schizophrenic patients. IV. Performance on psychological tests. British Journal of Psychiatry, 159 (suppl. 13), 2629.Google Scholar
Goldberg, T. E., Ragland, J. D., Torrey, E. F., et al (1990) Neuropsychological assessment of monozygotic twins discordant for schizophrenia. Archives of General Psychiatry, 47, 10661072.CrossRefGoogle ScholarPubMed
Goldberg, T. E., Torrey, E. F., Gold, J. M., et al (1993) Learning and memory in monozygotic twins discordant for schizophrenia. Psychological Medicine, 23, 7185.Google Scholar
Golden, C. J., Moses, J. A., Zelazowski, R., et al (1980) Cerebral ventricular size and neuropsychological impairment in young chronic schizophrenics: measurement by the standardised Luria-Nebraska Neuropsychological Battery. Archives of General Psychiatry, 37, 619623.Google Scholar
Gur, R. E., Mozley, P. D., Shatsel, D. L., et al (1994) Clinical subtypes of schizophrenia: differences in brain and CSF volume. American Journal of Psychiatry, 151, 343350.Google ScholarPubMed
Harvey, I., Ron, M. A., Du Boulay, G., et al (1993) Reduction of cortical volume in schizophrenia on magnetic resonance imaging. Psychological Medicine, 23, 591604.Google Scholar
Johnstone, E. C. (ed.) (1991) Disabilities and circumstances of schizophrenic patients – a follow-up study. British Journal of Psychiatry, 159 (suppl. 13).Google Scholar
Johnstone, E. C., Crow, T. J., Frith, C. D., et al (1976) Cerebral ventricular size and cognitive impairment in chronic schizophrenia. Lancet, ii, 924926.Google Scholar
Johnstone, E. C., Owens, D. G. C., Crow, T. J., et al (1989) Temporal lobe structure as determined by nuclear magnetic resonance in schizophrenia and bipolar affective disorder. Journal of Neurology, Neurosurgery and Psychiatry, 52, 736741.CrossRefGoogle ScholarPubMed
Kolakowska, T., Williams, A. O., Ardern, M., et al (1985) Schizophrenia with good and poor outcome. I. Early clinical features, response to neuroleptics and signs of organic dysfunctions. British Journal of Psychiatry, 146, 229246.CrossRefGoogle Scholar
Krawiecka, M., Goldberg, D. & Vaughn, M. (1977) A standardised psychiatric assessment scale for rating chronic psychotic patients. Acta Psychiatrica Scandinavica, 55, 299308.CrossRefGoogle ScholarPubMed
Liddle, P. F., Friston, K. J., Frith, C. D., et al (1992) Patterns of cerebral blood flow in schizophrenia. British Journal of Psychiatry, 160, 179186.Google Scholar
Losonczy, M. F., Song, I. S., Mohs, R. C., et al (1986) Correlates of lateral ventricular size in chronic schizophrenia. I. Behavioral and treatment response measures. American Journal of Psychiatry, 143, 976981.Google Scholar
Luchins, D. J., Lewine, R. R. J. & Meltzer, H. Y. (1984) Lateral ventricular size, psychopathology, and medication response in the psychoses. Biological Psychiatry, 19, 2944.Google Scholar
McGlashan, T. H. (1984) The Chestnut Lodge follow-up study. II: long-term outcome of schizophrenia and the affective disorders. Archives of General Psychiatry, 41, 586601.CrossRefGoogle ScholarPubMed
May, P. R. A., Dencker, S. J., Hubbard, J. W., et al (1988) A systematic approach to treatment resistance in schizophrenic disorders. In Treatment Resistance in Schizophrenia (eds Dencker, S. J. & Kulhanek, F.), pp. 2233. Braunschweig/Wiesbaden: Viewag Verlag.Google Scholar
Nasrallah, H. Y., Kuperman, S., Hamra, B. J., et al (1983) Clinical differences between schizophrenic patients with and without large cerebral ventricles. Journal of Clinical Psychiatry, 44, 407409.Google Scholar
Nimgaonkar, V. L., Wessely, S., Tune, L. E., et al (1988) Response to drugs in schizophrenia: the influence of family history, obstetric complications and ventricular enlargement. Psychological Medicine, 18, 583592.Google Scholar
Saykin, A. J., Gur, R. C., Gur, R. E., et al (1991) Neuropsychological function in schizophrenia: selective impairment in memory and learning. Archives of General Psychiatry, 48, 618624.Google Scholar
Schroder, J., Geider, F. J. & Sauer, H. (1993) Can computerised tomography be used to predict early treatment response in schizophrenia? British Journal of Psychiatry, 163 (suppl. 21), 1315.CrossRefGoogle Scholar
Schulz, S. C., Sinicrope, P. S., Kishore, P., et al (1983) Treatment response and ventricular brain enlargement in young schizophrenic patients. Psychopharmacology Bulletin, 19, 510512.Google Scholar
Shallice, T., Burgess, P. W. & Frith, C. D. (1991) Can the neuropsychological case-study approach be applied to schizophrenia? Psychological Medicine, 21, 661673.Google Scholar
Shenton, M. E., Kikinis, R., Jolesz, F. A., et al (1992) Abnormalities of the left temporal lobe and thought disorder in schizophrenia: a quantitative magnetic resonance imaging study. New England Journal of Medicine, 327, 604612.CrossRefGoogle ScholarPubMed
Smith, R. C., Baumgartner, R., Ravichandram, G. K., et al (1985) Lateral ventricular enlargement and clinical response in schizophrenia. Psychiatry Research, 14, 241253.Google Scholar
Spitzer, R. L. & Endicott, J. (1978) Schedule for Affective Disorders and Schizophrenia – Lifetime Version. New York: New York State Psychiatric Institute.Google Scholar
Suddath, R. L., Christison, G. W., Torrey, E. F., et al (1990) Anatomical abnormalities in the brains of monozygotic twins discordant for schizophrenia. New England Journal of Medicine, 322, 789794.Google Scholar
Tamlyn, D., McKenna, P. J., Mortimer, A. M., et al (1992) Memory impairment in schizophrenia: its extent, affiliations and neuropsychological character. Psychological Medicine, 22, 101115.Google Scholar
Wechsler, D. (1981) Wechsler Adult Intelligence Scale – Revised (WAIS–R). New York: Psychological Corporation.Google Scholar
Weinberger, D. R. (1987) Implications of normal brain development for the pathogenesis of schizophrenia. Archives of General Psychiatry, 44, 660669.Google Scholar
Weinberger, D. R. Bigelow, L. B., Kleinman, J. E., et al (1980) Cerebral ventricular enlargement in chronic schizophrenia: an association with poor response to treatment. Archives of General Psychiatry, 37, 1113.Google Scholar
Williams, A. O., Reveley, M. A., Kolakowska, T. A., et al (1985) Schizophrenia with good and poor outcome. II. Cerebral ventricular size and its clinical significance. British Journal of Psychiatry, 146, 239246.Google Scholar
Wilms, G., van Ongeval, C., Baert, A. L., et al (1992) Ventricular enlargement, clinical correlates and treatment outcome in chronic schizophrenic inpatients. Acta Psychiatrica Scandinavica, 85, 306312.CrossRefGoogle ScholarPubMed
Wing, J. K., Cooper, J. & Sartorius, N. (1974) The Measurement and Classification of Psychiatric Symptoms. Cambridge: Cambridge University Press.Google Scholar
Wojcik, J. D., Gelenberg, A. J., Labrie, R. A., et al (1980) Prevalence of tardive dyskinesia in an outpatient population. Comprehensive Psychiatry, 21, 370380.Google Scholar
Young, A. H., Blackwood, D. H. R., Roxborough, H., et al (1991) A magnetic resonance imaging study of schizophrenia: brain structure and clinical symptoms. British Journal of Psychiatry, 158, 158164.Google Scholar
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