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Altered Magnetic Resonance White-Matter T1 Values in Patients with Affective Disorder

Published online by Cambridge University Press:  02 January 2018

R. J. Dolan*
Affiliation:
Royal Free Hospital School of Medicine, Pond St, London NW3, and National Hospital for Nervous Diseases, Queen Square, London WC1
A. M. Poynton
Affiliation:
York Clinic, Guy's Hospital, London Bridge, London SE1 9RT
P. K. Bridges
Affiliation:
Guy's Hospital Medical School, London SE1 9RT
M. R. Trimble
Affiliation:
The National Hospital for Nervous Diseases, and Institute of Neurology, London WC1
*
Correspondence

Abstract

The MRI T1 proton relaxation values were assessed in 14 patients with bipolar affective disorder and 10 with a unipolar disorder and a matched normal control group. The T1 values in the frontal white matter of patients significantly exceeded those of the controls. This difference was accounted for by an increase in T1 values in the frontal white matter of unipolar patients: the values for bipolar patients alone did not differ from those for controls. These preliminary findings support a hypothesis of frontal lobe dysfunction mediating pathological changes in mood.

Type
Papers
Copyright
Copyright © The Royal College of Psychiatrists 

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References

Barnes, D., McDonald, W. I., Tofts, P. S., et al (1986) Magnetic resonance imaging of experimental cerebral oedema. Journal of Neurology, Neurosurgery and Psychiatry, 49, 13411347.CrossRefGoogle ScholarPubMed
Baxter, L. R. Jr, Schwartz, J. M., Phelps, M. E., et al (1989) Reduction of prefrontal cortex glucose metabolism common to three types of depression. Archives of General Psychiatry, 46, 243250.Google Scholar
Bell, B. A., Kean, D. M., MacDonald, H. L., et al (1987) Brain water measurement by magnetic resonance imaging. Lancet, i, 6669.Google Scholar
Besson, J. A. O., Corrigan, F. M., Foreman, E. I., et al (1985) NMR imaging in dementia. British Journal of Psychiatry; 146, 3135.Google Scholar
Besson, J. A. O., Corrigan, F. M., Cherryman, G. R., et al (1987) Nuclear magnetic resonance brain imaging in chronic schizophrenia. British Journal of Psychiatry, 150, 161163.Google Scholar
Braftos, D. & Sagedal, E. (1960) Luftencephalogorafiske undersokelser hos pasienter innlagt i sinnsykehus. Nordisk Medicin, 64, 16061609.Google Scholar
Bydder, G. M. (1984) Nuclear magnetic resonance imaging of the brain. British Medical Bulletin, 40, 170174.Google Scholar
Conlon, P., Trimble, M. R., Rogers, D., et al (1988) Magnetic resonance imaging in epilepsy: a controlled study. Epilepsy Research, 2, 3743.Google Scholar
Coppen, A. J. & Shaw, D. M. (1963) Minimal metabolism in melancholia. British Medical Journal, ii, 14391444.CrossRefGoogle Scholar
Coppen, A. J. & Shaw, D. M. Malleson, A., et al (1966) Mineral metabolism in mania. British Medical Journal, i, 7175.Google Scholar
Corsellis, J. A. N. (1962) Mental Illness in the Ageing Brain. Oxford: Oxford University Press.Google Scholar
Direkeze, M., Baylliss, S. G. & Cutting, J. C. (1971) Primary tumours of the frontal lobe. British Journal of Clinical Practice, 25, 207213.Google Scholar
Dolan, R. J., Calloway, S. P. & Mann, A. H. (1985) Cerebral ventricular size in depressed subjects. Psychological Medicine, 15, 873878.CrossRefGoogle ScholarPubMed
Dolan, R. J., Calloway, S. P., Thacker, P. F., et al (1986) The cerebral cortical appearance in depressed subjects. Psychological Medicine, 16, 775779.Google Scholar
Elvidge, A. R. & Reed, G. E. (1938) Biopsy changes of cerebral pathologic changes in schizophrenia and manic-depressive psychosis. Archives of Neurology and Psychiatry, 40, 267268.Google Scholar
Hamilton, M. (1967) Development of a rating scale for primary depressive illness. British Journal of Social and Clinical Psychology, 6, 278296.CrossRefGoogle ScholarPubMed
Haug, J. O. (1962) Pneumo-encephalographic studies in mental disease. Acta Psychiatrica Scandinavica (suppl. 165), 1114.Google Scholar
Hecaen, & Ajuriaguerra, J. de (1956) Troubles Mentaux au Cours des Tumeurs Intracraniennes. Paris: Masson.Google Scholar
Jacoby, R. J. & Levy, R. (1980) Computed tomography in the elderly. III. Affective disorder. British Journal of Psychiatry, 136, 270275.Google Scholar
Jacoby, R. J., Dolan, R. J., Levy, R., et al (1983) Quantitative computerised tomography in elderly depressed patients. British Journal of Psychiatry, 143, 124127.Google Scholar
Mathur-De Vre, R. (1984) Biomedical implications of the relaxation behaviour of water related NMR imaging. British Journal of Radiology, 57, 955976.CrossRefGoogle ScholarPubMed
Mayberg, H. S., Starkstein, S. E., Bolduc, P., et al (1989) Frontal lobe hypometabolism in depressed, nondemented patients with Parkinson's disease. Journal of Cerebral Blood Flow and Metabolism, 9 (suppl. 1), 346.Google Scholar
Nagy, K. (1963) Pneumoencephalographische befunde bei endogen psychosen. Nerverarzt, 34, 543548.Google Scholar
Naylor, G. J., Dick, D. A. T., Dick, E. G., et al (1973) Erythrocyte membrane cation carrier in depressive illness. Psychological Medicine, 3, 502508.Google Scholar
Naylor, G. J., Dick, D. A. T., Dick, E. G., et al (1974) Lithium therapy and erythrocyte membrane cation carrier. Psychopharmacologia, 37, 8186.Google Scholar
Naylor, G. J., Dick, D. A. T., Dick, E. G., et al (1976) Erythrocyte membrane cation carrier in mania. Psychological Medicine, 6, 659663.Google Scholar
Ormerod, I. E. C., Johnson, G., MacMalice, D., et al (1986) Relaxation times of apparently normal cerebral white matter in multiple sclerosis. Acta Radiologica (suppl. 369), 382384.Google Scholar
Pearlson, G. D. & Veroff, A. E. (1981) Computerised tomographic scan changes in manic–depressive illness. Lancet, ii, 470.Google Scholar
Rangel-Guerra, R. A., Parez-Payan, H., Minkoff, L., et al (1983) Nuclear magnetic resonance in bipolar affective disorders. American Journal of Neuroradiology, 4, 224231.Google Scholar
Robinson, R. G., Kubos, K. L., Starr, L. B., et al (1984) Mood disorders in stroke patients: importance of location of lesion. Brain, 107, 8193.Google Scholar
Spitzer, R. L., Endicott, J. & Robins, E. (1978) Research diagnostic criteria: rationale and reliability. Archives of General Psychiatry, 35, 773.Google Scholar
Standish-Barry, H. M. A. S., Bouras, N., Bridges, P. K., et al (1982) Pneumo-encephalographic and computerised axial tomography scan changes in affective disorders. British Journal of Psychiatry, 141, 614617.CrossRefGoogle Scholar
Van Boxel, P., Bridges, P. K., Bartlett, J. R., et al (1978) Size of cerebral ventricles in 66 psychiatric patients. British Journal of Psychiatry, 133, 500506.Google Scholar
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