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Cognitive Reduction in Presenile Dementia Related to Regional Abnormalities of the Cerebral Blood Flow

Published online by Cambridge University Press:  29 January 2018

Bo Hagberg  and
David H. Ingvar
Bo Hagberg
Affiliation:
Department of Clinical Psychology, University Hospital, S-221 85 Lund 5, Sweden
David H. Ingvar
Affiliation:
Department of Clinical Neurophysiology, University Hospital, S-221 85 Lund 5, Sweden
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Summary

Fifty-five patients with presenile dementia were examined. There were 28 women and 27 men, and the mean age was 59 and 56 years respectively at the time of the study. A large series of psychometric tests was used, and with the aid of age-matched non-demented controls five significantly different cognitive reduction groups could be identified. In the demented patients the regional cerebral blood flow (rCBF) was determined with an eight-detector or 32-detector equipment. There was a rough proportionality between the cognitive reduction and a decrease of the cerebral blood flow (especially the flow in the grey matter). In addition, certain regional flow abnormalities correlated with specific cognitive functions in a manner resembling the cognitive defects found in focal brain lesions in the same region. Thus, patients who showed only memory disturbances demonstrated a focal flow reduction in the temporal region. More severely affected patients, with reduction of verbal abilities and signs of agnosia, showed very low flows in occipitotemporo-parietal parts of the hemisphere. The results offer a principal confirmation of the dynamic field theory concerning the functional organization of the cerebral cortex (Luria, 1966).

Type
Research Article
Information
The British Journal of Psychiatry , Volume 128 , Issue 3 , March 1976 , pp. 209 - 222
Copyright
Copyright © Royal College of Psychiatrists, 1976 

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References

Babcock, H. (1930) An experiment in the measurement of mental deterioration. Archives of Psychology, 117.Google Scholar
Baer, P. E., Mathew, N. T. & FAIBISH, G. M. (1975) Neuro-physiological correlates of hemispheric and regional cerebral blood flow in dementia. VII Salzburg Conference on Cerebrovascular Disease. September 1974. To be published.Google Scholar
Benton, A. L. (1963) The Revised Visual Retention Test. Clinical and Experimental Applications. Third ed. State Univ. of Iowa City/The Psychological Corporation, New York.Google Scholar
Berglund, M. & Sonesson, B. Personality impairment in chronic alcoholism and its relation to regional cerebral blood flow and psychometric performance. Journal of Studies on Alchohol. Submitted for publication.Google Scholar
Brun, A., Gustafson, L. & Ingvar, D. H. (1975) Neuropathological findings related to neuropsychiatric symptoms and regional cerebral blood flow in presenile dementia. VIIth International Congress of Neuropathology, Budapest.Google Scholar
Busse, E. W. (1967) Psychopathology. In Handbook of Aging and the Individual (ed. Birren, J. E.), pp. 364–99. Chicago: University of Chicago Press.Google Scholar
Chapman, L. F. & Wolff, H. G. (1959) The cerebral hemispheres and the highest integrative functions of man. Archives of Neurology, 1, 357421.CrossRefGoogle ScholarPubMed
Cronholm, B. & Molander, L. (1954) Memory disturbances after electroconvulsive therapy. I. Conditions 6 hours after electro-shock treatment. Acta Psychiatrica et Neurologica Scandinavica, 32, 280306.CrossRefGoogle Scholar
Eisenson, J. (1954) Manual for the Examination of Aphasic and Related Disturbances. Revised 1954. New York: The Psychological Corporation.Google Scholar
Fazekas, J. F., Bessman, A. N., Cotsonas, N. J. & Alman, R. W. (1953) Cerebral hemodynamics in cerebral arteriosclerosis. Journal of Gerontology, 8, 137—43.CrossRefGoogle ScholarPubMed
Feifel, H. (1949) Qualitative differences in the vocabulary responses of normals and abnormals. Genetic Psychology Monographs, 39, 151204.Google Scholar
Franzen, G. & Ingvar, D. H. Abnormal distribution of cerebral activity in chronic schizophrenia. Journal of Psychiatric Research. In press.Google Scholar
Freyhan, F. A., Woodford, R. B. & Kety, S. S. (1951) Cerebral blood flow and metabolism in psychosis of senility. Journal of Nervous and Mental Diseases, 113, 449—56.Google Scholar
Graham, F. K. & Kendall, B. S. (1960) Memory-ForDesigns; revised general manual. Perceptual and Motor Skills, 11, 147—88.CrossRefGoogle Scholar
Gustafson, L. (1975) Psychiatric symptoms in dementia with onset in the presenile period. Acta Psychiatrica Scandinavica. Supplement. 257, 735.Google Scholar
Gustafson, L. & Hagberg, B. (1975) Emotional behaviour, personality changes and cognitive reduction in presenile dementia: related to regional cerebral blood flow. Acta Psychiatrica Scandinavica. Supplementum. 257, 3771 Google Scholar
Gustafson, L. & Risberg, J. (1974) Regional cerebral blood flow related to psychiatric symptoms in dementia with onset in the presenile period. Acta Psychiatrica Scandinavica, 50, 516—38.CrossRefGoogle ScholarPubMed
Hagberg, B. (1974) Kognitiva defekter och rCBF vid tidiga demenstillstånd. Läkartidningen, 71, 1288—90.Google Scholar
Hagberg, B. A correlation of psychometry and rCBF in patients with presenile dementia. To be published.Google Scholar
Hedlund, S., Köhler, V., Nylin, G., Olsson, R., Ragnström, O., Rothström, E. & Åström, K. E. (1964) Cerebral blood circulation in dementia. Acta Psychiatrica Scandinavica, 40, 77106.Google Scholar
H⊘edt-Rasmussen, K. (1967) Regional cerebral blood flow. The intra-arterial injection method. Thesis. Munksgaard, Copenhagen.Google Scholar
H⊘edt-Rasmussen, K. Sveinsdottir, E. & Lassen, N. A. (1966) The inert gas intra-arterial injection method for determining regional cerebral blood flow through the intact skull. Circulation Research, 18, 237—47.Google Scholar
Husén, T. (1956) CBV-skalan, individuell testskala för vuxna. Lund.Google Scholar
Inglis, J. (1958) Psychological investigations of cognitive deficit in elderly psychiatric patients. Psychological Bulletin, 55, 197214.CrossRefGoogle ScholarPubMed
Ingvar, D. H. (1975) Brain work in presenile dementia and in chronic schizophrenia. In: Brain Work (eds. Ingvar, D. H. and Lassen, N. A.). Munksgaard, Copenhagen.Google Scholar
Ingvar, D. H. Cronqvist, S., Ekberg, R., Risberg, J. & H⊘edt-Rasmussen, K. (1965) Normal values of regional cerebral blood flow in man, including flow and weight estimates of grey and white matter. A preliminary summary. Acta Neurologica Scandinavica, 41. Supplementum 14, 72–8.Google Scholar
H⊘edt-Rasmussen, K. & Risberg, J. (1965) Influence of mental activity upon regional cerebral blood flow in man. Acta Neurologica Scandinavica, 41. Supplementum 14, 93—6.Google Scholar
H⊘edt-Rasmussen, K. & Risberg, J. (1967) Increase of regional cerebral blood flow during mental effort in normals and patients with focal brain disorders. Experimental Brain Research, 3, 195211.Google Scholar
H⊘edt-Rasmussen, K. & Gustafson, L. (1970) Regional cerebral blood flow in organic dementia with early onset. Acta Neurologica Scandinavica, 41. Supplement 43, 4273.Google Scholar
H⊘edt-Rasmussen, K. & Lassen, N. A. (1973) Cerebral complications following measurements of regional cerebral blood flow (rCBF) with the intra-arterial 133xenon injection method Stroke, 4, 658—65.Google Scholar
H⊘edt-Rasmussen, K. & Franzén, G. (1974) Distribution of cerebral activity in chronic schizophrenia. Lancet, December 21, 1484—5.Google Scholar
H⊘edt-Rasmussen, K. & Schwartz, M. S. (1974) Blood flow patterns induced in the dominant hemisphere by speech and reading. Brain, 97, part II, 273–88.Google Scholar
Ingvar, D. H. & Gadea Ciria, M. (1975) Assessment of severe brain damage by multi-regional measurements of cerebral blood flow. In CIBA Symposium: Outcome of Severe CNS Damage. London, 25—28 November 1974. Amsterdam: Elsevier.Google Scholar
Ingvar, D. H. & Lassen, N. A., (eds) (1975) Brain Work. Munksgaard, Copenhagen.Google Scholar
Jones, H. E. (1967) Intelligence and Problem-solving. In Handbook of Aging and the Individual (ed. Birren, J. E.), pp. 700–38. Chicago: University of Chicago Press.Google Scholar
Kaplan, O. J., (ed.) (1956) Mental Disorders in Later Life. Second ed. Stanford, California: Stanford University Press.Google Scholar
Klee, A. (1964) The relationship between clinical evaluation of mental deterioration, psychological test results and the cerebral metabolic rate of oxygen. Acta Neurologica Scandinavica, 40, 337—45.Google Scholar
Lassen, N. A., Feinberg, I. & Lane, M. H. (1960) Bilateral studies of cerebral oxygen uptake in young and aged normal subjects and in patients with organic dementia. Journal of Clinical Investigations, 39, 491500.Google Scholar
Lassen, N. A. H⊘edt-Rasmussen, K., S⊘renssen, S. C., Skinh⊘j, E., Cronqvist, S., Bodforss, B. & Ingvar, D. H. (1963) Regional cerebral blood flow in man determined by krypton85 . Neurology, 13, 719—27.CrossRefGoogle Scholar
Cronqvist, S. & Ingvar, D. H. (1972) Radioisotopic assessment of regional cerebral blood flow. Progress in Nuclear Medicine, 1, 376409.Google Scholar
Luria, A. R. (1966) Higher Cortical Functions in Man. London: Tavistock Publ. Co.Google Scholar
Mansvelt, J. van (1954) Pick's Disease: a syndrome of lobar, cerebral atrophy; its clinical-anatomical and histopathological types. Thesis. Enschede, Utrecht.Google Scholar
Mayer-Gross, W. & Guttman, K. (1953) Quoted in The Parietal Lobes (ed. Critchley, M.), p. 379. London: Edward Arnold.Google Scholar
Mayer-Gross, W. Slater, E. & Roth, M. (1969) Clinical Psychiatry. Third ed. London: Baillièrc, Tindall & Cassell.Google Scholar
Milner, B. (1958) Psychological defects produced by temporal lobe excision. Publ. Association for Research in Nervous and Mental Diseases, 36, 244—57.Google Scholar
Mulder, V. (1959) Psychosis with brain tumors and other chronic neurological disorders. In American Handbook of Psychiatry, II (ed. Arieti, S.), pp. 1144–62. New York: Basic Books Inc.Google Scholar
Orme, J. E., Lee, D. & Smith, M. R. (1964) Psychological assessments of brain damage and intellectual impairment in psychiatric patients. British Journal of Social and Clinical Psychology, 3, 161—7.CrossRefGoogle Scholar
Pearce, J. & Miller, E. (1973) Clinical Aspects of Dementia. London: Baillière, Tindall.Google Scholar
Prien, T. (1957) Manual till USTM-provet. Skandinaviska Testförlaget.Google Scholar
Risbero, J. & Ingvar, D. H. (1973) Patterns of activation in the grey matter of the dominant hemisphere during memorization and reasoning: a study of regional cerebral blood flow changes during psychological testing in a group of neurologically normal subjects. Brain, 96, 737—56.Google Scholar
Roth, M. & Hopkins, B. (1953) Psychological test performance in patients over 60. I. Senile psychosis and the affective disorders of old age. Journal of Mental Science, 99 439–50.Google Scholar
Roth, M. & Myers, D. H. (1969) The diagnosis of dementia. British Journal of Hospital Medicine, March 1969, pp. 705–17.Google Scholar
Simard, D., Olsen, J., Paulson, O. B., Lassen, N. A. & Skinh⊘j, E. (1971) Regional cerebral blood flow and its regulation in dementia. Brain, 94, 273—88.Google Scholar
Sjögren, T., Sjögren, H. & Lindgren, Å. G. H. (1952) Morbus Alzheimer and Morbus Pick. A Genetic, Clinical and Patho-anatomical Study. Munksgaard, Copenhagen.Google Scholar
Smith, G. & Nyman, G. E. (1959) Psychopathologic behavior in a serial experiment: investigations of neurotic, psychotic, psychopathic and normal subjects. (Lunds Universitets årsskrift, N.F., avd 2, Bd. 56, nr 5), C.W.K. Gleerups, Lund.Google Scholar
Sveinsdottir, E., Torlöf, P., Risberg, J., Ingvar, D. H. & Lassen, N. A. (1971) Calculation of regional cerebral blood flow (rCBF): Initial-slope-index compared to height-over-total area values. In Brain and Blood Flow (ed. Ross Russell, R. W.), pp. 8593. London: Pitman.Google Scholar
Sveinsdottir, E., Torlöf, P., Risberg, J., Ingvar, D. H. (1971/72) Monitoring regional cerebral blood flow in normal man with a computer controlled 32-detector system. European Neurology, 6, 228—33.Google Scholar
Wechsler, D. (1958) The Measurements and Appraisal of Adult Intelligence. Fourth ed. Baltimore.CrossRefGoogle Scholar
White, J. G. & Knox, S. J. (1965) Some psychological correlates of age and dementia. British Journal of Social and Clinical Psychology, 4, 259—65.Google Scholar
Wilkinson, I. M. S., Bull, J. W. D., du Boulay, G. H., Marshall, J., Ross Russell, R. W. & Symon, L. (1969) Regional blood flow in the normal cerebral hemisphere. Journal of Neurology, Neurosurgery and Psychiatry, 32, 367—78.CrossRefGoogle ScholarPubMed
Willanger, R. (1970) Intellectual Impairment in Diffuse Cerebral Lesions. Munksgaard, Copenhagen.Google Scholar
Williams, M. (1970) Brain Damage and the Mind. Harmondsworth, Middlesex: Penguin Books Ltd.Google Scholar
Wolstenholme, G. E. W. and O'Connor, M., (eds.) (1970) Alzheimer's Disease and Related Conditions. A CIBA Foundation Symposium. London: Churchill.Google Scholar
Yacorzynski, G. K. (1941) An evaluation of the postulates underlying the Babcock deterioration test. Psychological Review, 48, 261—7.Google Scholar
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