Hostname: page-component-cd9895bd7-hc48f Total loading time: 0 Render date: 2024-12-26T07:10:09.652Z Has data issue: false hasContentIssue false

The spectrum of structural brain changes in schizophrenia: age of onset as a predictor of cognitive and clinical impairments and their cerebral correlates

Published online by Cambridge University Press:  09 July 2009

E. C. Johnstone*
Affiliation:
Division of Psychiatry, Clinical Research Centre, Harrow and Department of Magnetic Resonance Imaging, Royal Postgraduate Medical School, London
D. G. C. Owens
Affiliation:
Division of Psychiatry, Clinical Research Centre, Harrow and Department of Magnetic Resonance Imaging, Royal Postgraduate Medical School, London
G. M. Bydder
Affiliation:
Division of Psychiatry, Clinical Research Centre, Harrow and Department of Magnetic Resonance Imaging, Royal Postgraduate Medical School, London
N. Colter
Affiliation:
Division of Psychiatry, Clinical Research Centre, Harrow and Department of Magnetic Resonance Imaging, Royal Postgraduate Medical School, London
T. J. Crow
Affiliation:
Division of Psychiatry, Clinical Research Centre, Harrow and Department of Magnetic Resonance Imaging, Royal Postgraduate Medical School, London
C. D. Frith
Affiliation:
Division of Psychiatry, Clinical Research Centre, Harrow and Department of Magnetic Resonance Imaging, Royal Postgraduate Medical School, London
*
1Address for correspondence: Dr E. C. Johnstone, Department of Psychiatry, Clinical Research Centre, Watford Road, Harrow, Middlesex, HA1 3UJ.

Synopsis

A range of cerebral structures was assessed in a series of 172 CT scans of groups of psychiatric patients (including 101 in-patients with chronic schizophrenia) and related to assessments of clinical state and psychological function. Ventricular indices were increased in patients with schizophrenia by comparison with patients with other psychiatric disorders: brain area, which is modestly positively correlated with ventricular indices, was significantly (P < 0·01) reduced in patients with schizophrenia. Among in-patients with chronic schizophrenia, measures of increased ventricular size were significantly associated with impaired social behaviour and with movement disorder. Memory for famous names in the distant past (a test of remote memory) was the only psychological test which showed significant associations with indices of ventricular size; this suggests that ventricular enlargement and its psychological sequelae occur relatively early in the disease process. Dichotomization of the sample of schizophrenic patients around the mean age of onset revealed that a range of clinical and psychological functions are significantly more abnormal in those with an early age of onset than in those in whom the onset was later. Early onset cases also perform less well academically and occupationally before illness onset. Within the early onset group some significant correlations between cognitive function and brain area were seen.

The findings suggest that: (i) some at least of the structural changes in schizophrenia arise at a time when the brain is still developing; and (ii) age of onset is an important determinant of social and intellectual impairment and is relevant to the relationship between brain structure and cognitive deficits.

Type
Research Article
Copyright
Copyright © Cambridge University Press 1989

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

Albus, M., Naber, D., Muller-Spahn, F., Douillet, P., Reinertshofer, T. & Ackenheil, M. (1985). Tardive dyskinesia: relation to computer-tomographic, endocrine and psychopathological variables. Biological Psychiatry 20, 10821089.CrossRefGoogle ScholarPubMed
Arregui, A., Mackay, A. V. P., Spokes, E. G. & Iversen, L. L. et al. . (1980). Reduced activity of angiotensin converting enzyme in basal ganglia in early onset schizophrenia. Psychological Medicine 10, 307313.CrossRefGoogle ScholarPubMed
Bartels, M. & Themelis, J. (1983). Computerised tomography in tardive dyskinesia. Archiv fur Psychialrie und Nervenkrankheiten 233, 371379.CrossRefGoogle ScholarPubMed
Boronow, J., Pickar, D., Ninan, P. T., Roy, A., Hommer, D., Linnoila, M. & Paul, S. M. (1985). Atrophy limited to the third ventricle in chronic schizophrenic patients. Archives of General Psychiatry 42, 266271.CrossRefGoogle Scholar
Brainin, M., Reisner, T. & Zeitlhofer, J. (1983). Tardive dyskinesia: clinical correlation with computed tomography in patients aged less than 60 years. Journal of Neurology, Neurosurgery and Psychiatry 46, 10371040.CrossRefGoogle ScholarPubMed
Clouston, T. S. (1891). The Neuroses of Development. Being the Morison Lectures of 1890 Oliver and Boyd: Edinburgh.Google Scholar
Cofiman, J. A., Mefferd, J., Golden, C. F., Block, S. & Graber, B. (1981). Cerebellar atrophy in chronic schizophrenia. Lancet, 1, 666.CrossRefGoogle Scholar
Crow, T. J., Colter, N., Frith, C. D., Jagoe, R., Johnstone, E C. & Owens, D. G. C. (1989). Developmental arrest of cerebral asymmetries in early onset schizophrenia. (In preparation.)CrossRefGoogle Scholar
Crow, T. J. & Stevens, M. (1978) Age disorientation in chronic schizophrenia: the nature of the cognitive deficit. British Journal of Psychiatry 133, 137142.CrossRefGoogle ScholarPubMed
Dunn, L. M. (1965). Expanded Manual for the Peabody Picture Vocabulary Test. American Guidance Service: Minneapolis.Google Scholar
Famuyiwa, O. O., Eccleston, D., Donaldson, A. A. & Garside, R. F. (1979). Tardive dyskinesia and dementia. British Journal of Psychiatry 135, 500504.CrossRefGoogle ScholarPubMed
Feighner, J. P., Robins, E., Guze, S. B., Woodruff, A., Winokur, G. & Munoz, R. (1972). Diagnostic criteria for use in psychiatric research. Archives of General Psychiatry 26, 5763.CrossRefGoogle ScholarPubMed
Gelenberg, A. J. (1976). Computerised tomography in patients with tardive dyskinesia. American Journal of Psychiatry 133, 578579.Google Scholar
Golden, C. J., Graber, B., Moses, J. A. & Zatz, L. M. (1980). Differentiation of chronic schizophrenia with and without ventricular enlargement by the Luria Nebraska Neuropsychological Battery. International Journal of Neuroscience 11, 131138.CrossRefGoogle ScholarPubMed
Gross, G., Huber, G. & Schlutter, R. (1982). Computerised tomography studies in schizophrenic diseases. Archiv für Psychiatrie und Nervenkrankheiten 231, 519526.CrossRefGoogle ScholarPubMed
Guy, J. D., Majorski, L. V., Wallace, C. J. & Guy, M. P. (1983). The incidence of minor physical anomalies in adult male schizophrenics. Schizophrenia Bulletin 9, 571582.CrossRefGoogle ScholarPubMed
Guy, W. (1976). ECDEU Assessment Manual for Psychopharmacology. Department of Health, Education and Welfare: Washington, D.C.Google Scholar
Hamilton, M. (1976). Fish's Schizophrenia, p. 118. John Wright. Bristol.Google Scholar
Haug, G. (1977). Age and sex dependence of the size of normal ventricles on computed tomography. Neuroradiology 14, 201204.CrossRefGoogle ScholarPubMed
Heath, R. G., Franklin, D. E., Walker, C. F. & Keating, J. W. (1982). Cerebellar vermial atrophy in psychiatric patients. Biological Psychiatry 17, 569585.Google Scholar
Hounsfield, G. N. (1973). Computerised transverse axial scanning (tomography). Part I. Description of the system. British Journal of Radiology 46, 10161022.CrossRefGoogle Scholar
Jacobi, W. & Winkler, H. (1927). Encephalographische Studien an chronische Schizophrenen. Archiv für Psychialrie und Nervenkrankheiten 81, 299332.CrossRefGoogle Scholar
Jakob, H. & Beckmann, H. (1986). Prenatal developmental disturbances in the limbic allocortex in schizophrenia. Journal of Neural Transmission 65, 303326.CrossRefGoogle Scholar
Jeste, D. V., Wagner, R. L., Weinberger, D. R., Rieth, K. G. & Wyatt, R. J. (1980 a). Evaluation of CT scans in tardive dyskinesia. American Journal of Psychiatry 137, 247248.Google ScholarPubMed
Jeste, D. V., Weinberger, D. R., Zalcman, S. & Wyatt, R. J. (1980 b). Computed tomography and tardive dyskinesia. British Journal of Psychiatry 136, 606607.CrossRefGoogle Scholar
Jeste, D. V. & Wyatt, R. J. (1981). Changing epidemiology of tardive dyskinesia: an overview. American Journal of Psychiatry 138, 297309.Google ScholarPubMed
Johnstone, E. C., Crow, T. J., Frith, C. D., Husband, J. & Kreel, L. (1976). Cerebral ventricular size and cognitive impairment in chronic schizophrenia. Lancet ii, 924926.CrossRefGoogle Scholar
Johnstone, E. C., Crow, T. J., Frith, C. D., Stevens, M., Kreel, L. & Husband, J. (1978). The dementia of dementia praecox. Acta Psychiatrica Scandinavica 57, 305324.CrossRefGoogle ScholarPubMed
Johnstone, E. C., Owens, D. G. C., Gold, A., Crow, T. J. & Macmillan, J. F. (1981). Institutionalisation and the defects of schizophrenia. British Journal of Psychiatry 139, 195203.CrossRefGoogle ScholarPubMed
Johnstone, E. C., Owens, D. G. C., Frith, C. D. & Calvert, L. M. (1985). Institutionalisation and the outcome of functional psychoses. British Journal of Psychiatry 146, 3644.CrossRefGoogle ScholarPubMed
Johnstone, E. C., Owens, D. G. C., Crow, T. J., Colter, N., Lawton, C. A., Jagoe, R. & Kreel, L. (1986). Hypothyroidism as a correlate of lateral ventricular enlargement in manic-depressive and neurotic illness. British Journal of Psychiatry 148, 317321.CrossRefGoogle ScholarPubMed
Kane, J. M. & Smith, J. M. (1982). Tardive dyskinesia: prevalence and risk factors 1959–1979. Archives of General Psychiatry 39, 473481.CrossRefGoogle Scholar
Kaplan, E., Goodglass, H. & Weintraub, S. (1978). The Boston Naming Test. E. Kaplan and H. Goodglass: Boston.Google Scholar
Kaufmann, C. A., Jeste, D. V., Shelton, R. C., Linnoila, M., Kafta, M. S. & Wyatt, R. J. (1986). Noradrenergic and neuroradiological abnormalities, in tardive dyskinesi. Biological Psychiatry 21, 799812.CrossRefGoogle Scholar
Kolakowska, T., Williams, A. O., Ardern, M. & Reveley, M. A. (1986). Tardive dyskinesia in schizophrenics under 60 years of age. Biological Psychiatry 21, 161169.CrossRefGoogle ScholarPubMed
Krawiecka, M., Goldberg, D. & Vaughan, M. (1977). A standardised psychiatric assessment for rating chronic psychotic patients. Acta Psychiatrica Scandinavica 55, 299308.CrossRefGoogle ScholarPubMed
Lippman, S., Manshadi, M., Baldwin, H., Drasing, G., Rice, J. & Alrajeh, S. (1982). Cerebellar vermis dimensions on CT scans of schizophrenic and bipolar patients. American Journal of Psychiatry 139, 667668.Google Scholar
Mackay, A. V. P., Iversen, L. L., Rosser, M., Spokes, E., Bird, E., Arregui, A., Creese, I. & Synder, S. H. (1982). Increased brain dopamine and dopamine receptors in schizophrenia. Archives of General Psychiatry 39, 991997.CrossRefGoogle ScholarPubMed
Marsden, C. D. (1976). Cerebral atrophy and cognitive impairment in chronic schizophrenia. Lancet ii, 1079.CrossRefGoogle Scholar
Marsden, C D., Mindham, R. H. S. & Mackay, A. V. P. (1986). Extrapyramidal movement disorders produced by antipsychotic drugs. In The Psychopharmacology and Treatment of Schizophrenia (ed. Bradley, P. B. and Hirsch, S. R.), pp. 340402. Oxford University Press: Oxford.Google Scholar
Mayer-Gross, W., Slater, E. & Roth, M. (1969). Clinical Psychiatry, p. 312. Bailliére, Tindall and Cassell: London.Google Scholar
Nasrallah, H. A., Jacoby, C. G. & McCalley-Whitters, M. (1981). Cerebellar atrophy in schizophrenia and mania. Lancet i, 1102.CrossRefGoogle Scholar
Nasrallah, H. A., Kuperman, C., Jacoby, C. G., McCaulley-Whitters, M. & Hamra, B. (1983). Clinical correlates in sulcal widening in chronic schizophrenia. Psychiatry Research 10, 237242.CrossRefGoogle ScholarPubMed
Nimgoankar, V. L., Wessely, S. & Murray, R. M. (1988). Prevalence of familiahty, obstetric complications and structural brain damage in schizophrenic patients. British Journal of Psychiatry 153, 191197.CrossRefGoogle Scholar
Nyback, H., Wiesel, F. A., Berggren, B. M. & Hindmarsh, T. (1982). Computed tomography of the brain in patients with acute psychosis and healthy volunteers. Acta Psychiatrica Scandinavica 65, 403414.CrossRefGoogle Scholar
Okasha, A. & Madkour, O. (1982). Cortical and central atrophy in chronic schizophrenia. Acta Psychialrica Scandinavica 65, 2934.CrossRefGoogle ScholarPubMed
Owens, D. G. C. & Johnstone, E. C. (1980). The disabilities of chronic schizophrenia: their nature and the factors contributing to their development. British Journal of Psychiatry 136, 384395.CrossRefGoogle Scholar
Owens, D. G. C., Johnstone, E. C. & Frith, C. D. (1982). Spontaneous involuntary disorders of movement: their prevalence, severity and distribution in chronic schizophrenics with or without treatment with neuroleptics. Archives of General Psychiatry 39, 452461.CrossRefGoogle ScholarPubMed
Owens, D. G. C., Johnstone, E. C., Crow, T. J., Frith, C. D., Jagoe, J. R. & Kreel, L. L. (1985). Lateral ventricular size in schizophrenia: relationship to the disease process and its clinical manifestations. Psychological Medicine 15, 2741.CrossRefGoogle Scholar
Owens, D. G. C., Johnstone, E. C. & Frith, C. D. (1988). The concept of tardive dyskinesia, its validity and limitations. (In preparation.)Google Scholar
Rieder, R. O., Donnelly, E. F., Herdt, J. R. & Waldman, I. N. (1979). Sulcal prominence in young chronic schizophrenic patients. Psychiatric Research 1, 18.CrossRefGoogle ScholarPubMed
Schofield, W., Hathway, S. R., Hastings, D. W. & Bell, D. M. (1954). Prognostic factors of schizophrenia. Journal of Consulting Psychology 18, 155166.CrossRefGoogle ScholarPubMed
Simpson, G. M., Lee, L. H., Zoubok, B. & Gardos, G. (1979). A rating scale for tardive dyskinesia. Psychopharmacology 64, 171179.CrossRefGoogle ScholarPubMed
Stephens, J. H., Astrup, C. & Mangnum, J. C. (1966). Prognostic factors in recovered and deteriorated schizophrenics. American Journal of Psychiatry 122, 11161121.CrossRefGoogle ScholarPubMed
Stevens, M. (1979). Famous personality test: a test for remote memory. Bulletin of the British Psychological Society 32, 211.Google Scholar
Takahashi, R., Inaba, Y., Inanaga, K., Kato, N., Kumashiro, H., Nishimura, T., Okuma, T., Otsuki, S., Dakai, T., Sato, T. & Shimazono, Y. (1981). CT-scanning and the investigation of schizophrenia. In Biological Psychiatry (ed. Perris, C., Struwe, G. and Jansson, B.), pp. 259288. Elsevier: North Holland.Google Scholar
Tanaka, T., Hazama, H., Kawahara, R. & Kobayashi, K. (1981). Computerised tomography of the brain in schizophrenic patients. Acta Psychiatrica Scandinavica 63, 191197.CrossRefGoogle ScholarPubMed
Waddington, J. L., Youssef, H. A., Dolphin, C. & Kinsella, A. (1987). Cognitive dysfunction, negative symptoms and tardive dyskinesias in schizophrenia. Archives of General Psychiatry 44, 907912.CrossRefGoogle ScholarPubMed
Weinberger, D. R., Torrey, E. F., Neophytides, N. & Wyatt, R. J. (1979 a). Lateral ventricular enlargement in chronic schizophrenia. Archives of General Psychiatry 36, 735739.CrossRefGoogle Scholar
Weinberger, D. R., Neophytides, A. & Wyatt, R. J. (1979 b). Structural abnormalities of the cerebral cortex in chronic schizophrenia. Archives of General Psychiatry 36, 935939.CrossRefGoogle Scholar
Weinberger, D. R., Torrey, E. F. & Wyatt, R. J. (1979 c). Cerebellar atrophy in chronic schizophrenia. Lancet i, 718719.CrossRefGoogle Scholar
Williams, A. O., Reveley, M. A., Kolakowska, T., Ardern, M. & Mandelbrote, B. M. (1985). Schizophrenia with good and poor outcome. II. Cerebral ventricular size and its clinical significance. British Journal of Psychiatry 146, 239246.CrossRefGoogle ScholarPubMed
Wing, J. K., Cooper, J. E. & Sartorius, N. (1974). Measurement and Classification of Psychiatric Symptoms. Cambridge University Press: London.Google Scholar
Withers, E. & Hinton, J. (1971). Three forms of the clinical tests of the sensorum and their reliability. British Journal of Psychiatry 119 19.CrossRefGoogle Scholar
World Health Organization. (1979). Schizophrenia: An International Follow-up Study. John Wiley: Chichester.Google Scholar
Yates, W. R., Jacoby, C. G. & Andreasen, N. C. (1987). Cerebellar atrophy in schizophrenia and affective disorder. American Journal of Psychiatry 114, 465467.Google Scholar
Zee, R. F. & Weinberger, D. R. (1986). Relationship between CT scan findings and neuropsychological performance in chronic schizophrenia. Psychiatric Clinics of North America 9, 4961.CrossRefGoogle Scholar