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The Electroencephalogram in Manic-Depressive Psychosis

Published online by Cambridge University Press:  08 February 2018

L. A. Hurst
Affiliation:
Sterkfontein Hospital, Krugersdorp
A. C. Mundy-Castle
Affiliation:
Sterkfontein Hospital, Krugersdorp
Diane M. Beerstecher
Affiliation:
National Institute for Personnel Research, South African Council for Scientific and Industrial Research, Johannesburg

Extract

The main object of this investigation is to verify the claim of Pauline Davis (1941) that manic-depressive depressed psychotics (M.D.D.s) tend to possess frequencies of alpha rhythm in the E.E.G. at 10 c./sec. or slower, whilst manic-depressive manic patients (M.D.M.s) tend to show alpha frequencies at 10 c./sec. or faster; furthermore that there is no shift in alpha frequency corresponding to change in psychotic phase or in degree of phase. These claims are of importance in relation to a recent paper by Mundy-Castle (1951b) in which a significant correlation was reported between ratings of the Heymans-Wiersma temperament variable secondary function and mean frequencies of alpha rhythm in normal adults, since both Heymans (1929) and Wiersma (1932) maintained that M.D.D.s possessed a high degree of secondary function and M.D.M.s a low degree of this variable. To explain this in more detail, secondary function is postulated as being present in individuals in different degrees varying over a continuous scale ranging from domination of the conscious field by secondary function to domination by primary experience (relative lack of secondary function). Individuals displaying the former may be referred to as secondary functioning, their behaviour being characterized by steadiness of action, continuity of interest, evenness of mood and psychic tempo, reduced stimulability and a tendency for mental events to perseverate. Individuals in whom secondary function is relatively lacking (it can never be wholly absent) may be termed primary functioning, their behaviour being characterized by impulsiveness, mobility, high stimulability and a quick and variable psychic tempo. The Heymans-Wiersma temperament scheme has been developed extensively by Biesheuvel (1935, 1949). Mundy-Castle's study revealed that subjects rated as secondary functioning possessed low alpha frequencies whilst those rated as primary functioning possessed high alpha frequencies. The present investigation should help to elucidate the view of Heymans and Wiersma concerning secondary function and manic-depressive psychosis.

Type
Part I.—Original Articles
Copyright
Copyright © Royal College of Psychiatrists, 1954 

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References

Biesheuvel, S., “The Nature of Temperament,” Trans. Roy. Soc. S. Afr., 1935, 23, 311.Google Scholar
Idem , “The Measurement of the Threshold for Flicker and its Value as a Perseveration Test,” Brif. J. Psychol., 1938, 29, 27.Google Scholar
Idem , “An Observational Technique of Temperament and Personality Assessment,” Bull. Nat. Inst. Pers. Res. (S. Afr.), 1949, 1, 4, 9.Google Scholar
Cardona, F., “Studio sul regonfiamento acuto della oligodendroglia nelle psicosi,” Rassegna di studi psichiat, 1934, 23, 271.Google Scholar
Davis, P. A., and Sulzbach, W., “Changes in the Electroencephalogram during Metrazol Therapy,” Arch. Neurol. Psychiat., Chicago, 1940, 43, 341.Google Scholar
Davis, P. A., “Evaluation of the Electroencephalograms of Schizophrenic Patients,” Amer. J. Psychiat., 1940, 96, 4.Google Scholar
Idem , “Electroencephalograms of Manic-depressive Patients,” Amer. J. Psychiat., 1941, 98, 3.Google Scholar
Idem , “A Comparative Study of the E.E.Gs. of Schizophrenic and Manic-depressive Patients,” Amer. J. Psychiat., 1942, 99, 210.Google Scholar
Elvidge, A. R., and Reed, G. B., “Biopsy Studies of Cerebral Pathologic Changes in Schizophrenic and Manic-depressive Psychosis,” Arch. Neurol. Psychiat., 1938, 40, 22.Google Scholar
Gastaut, H.Y., Roger, A., Corriol, J., and Naquet, R., “Etude électrographique du cycle d'excitabilité cortical,” E.E.G. Clin. Neurophysiol., 1951, 3, 401.Google Scholar
Golla, F. L., Hutton, E. L., and Walter, W. G., “The Objective Study of Mental Imagery,” J. Ment. Sci., 1943, 89, 216.CrossRefGoogle Scholar
Henderson, D. K., and Gillespie, R. D., A Text-book of Psychiatry, 1944. Oxford University Press.Google Scholar
Heymans, G., Inleiding tot de speciaal psychologie, 1929, 2 Vols. Haarlem: de Erven F. Bohn.Google Scholar
Hill, D., and Parr, G. (Editors), Electroencephalography: a Symposium of its Various Aspects, 1950. London: MacDonald.Google Scholar
Hoagland, H., Rubin, M. A., and Cameron, I. E., “The Electroencephalogram of Schizophrenics during Insulin Hypoglycaemia and Recovery,” Amer. J. Physiol., 1937, 120, 559.Google Scholar
Hurst, L. A., Electroencephalographic Support for the Heredito-Constitutional Organic View of Schizophrenia, 1950. M.D. Thesis, Univ. Pretoria.Google Scholar
Idem , “Electroencephalographic Support for a Genetically Oriented Concept of Schizophrenia,” J. Nerv. ment. Dis., 1952a, 115, 95.Google Scholar
Idem, The Electroencephalogram in Manic-depressive Psychosis: Relationship to Psychological Features and Implications for a Toxic-Organic Pathogenesis, 1952b, Ph.D. Thesis, Univ. Cape Town.Google Scholar
Kallman, F. J., The Genetics of Schizophrenia, 1938. New York: Augustin.Google Scholar
Idem , “The Genetics of Psychosis—an Analysis of 1,232 Twin Index Families,” Proc. Congrès International de Psychiatrie, Paris, 1950. Herman et Cie, Editeurs.Google Scholar
Kennard, M. A., and Willner, M. D., “Significance of Changes in Electroencephalogram which Result from Shock Therapy,” Amer. J. Psychiat., 1948, 105, 40.Google Scholar
McNeel, B. H., Dewan, J. G., Meyers, C. R., Procter, L. D., and Goodwin, J. E., “Parallel Psychological, Psychiatric and Physiological Findings in Schizophrenic Patients under Insulin Shock Treatment,” Ibid., 1941, 98, 422.Google Scholar
Mosovich, A., and Katzenelbogen, B., “Electroshock Therapy: Clinical and Electroencephalographic Studies,” J. nerv. ment. Dis., 1946, 107, 517.Google Scholar
Mundy-Castle, A. C., “Theta and Beta Rhythm in the Electroencephalograms of Normal Adults,” E.E.G. Clin. Neurophysiol., 1951a, 3, 477.CrossRefGoogle ScholarPubMed
Idem , “The Electroencephalogram in Relation to Temperament,” Proceedings of Fourth Annual Congress of the South African Psychological Association, Pietermaritzburg, July, 1951b (to be published.) Google Scholar
Idem , “An Analysis of Central Responses to Photic Stimulation in Normal Adults,” E.E.G. Clin. Neurophysiol., 1953, 5, 1.CrossRefGoogle Scholar
Idem and McKiever, B. L., “The Psychophysiological Significance of the Galvanic Skin Response,” J. Exp. Psychol., 1953, 46, 15.Google Scholar
Idem , Hurst, L. A., Beerstecher, D. M., and Prinsloo, T., “The Electroencephalogram in the Senile Psychoses,” 1953. E.E.G. Clin. Neurophysiol, 1953, in the press.Google Scholar
Papez, J. W., and Bateman, J. F., “Cytological Changes in Nerve Cells in Dementia Praecox,” J. nerv. ment. Dis., 1949, 110, 425.Google Scholar
Penfield, W., and Cone, W., “Acute Swelling of Oligodendroglia: a Specific Type of Neuroglia Change,” Arch. Neurol. Psychiat., 1926, 16, 131.Google Scholar
Rupp, C., and Wilson, G., “General Pathologic Findings Associated with Cases of so-called Functional Psychoses,” J. nerv. ment. Dis., 1949, 110, 419.Google Scholar
Short, P. L., “The Objective Study of Mental Imagery,” E.E.G. Clin. Neurophysiol., 1951, 3, 523.Google Scholar
Walter, W. G., “Electroencephalography in Cases of Mental Disorder,” J. Ment. Sci., 1942, 88, 110.CrossRefGoogle Scholar
Wiersma, E. D., Lectures on Psychiatry, 1932. London: H. K. Lewis & Co., Ltd.Google Scholar
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