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Blood Uridine Diphosphate Glucose in Mental Disease

Published online by Cambridge University Press:  29 January 2018

Otto Hansen*
Affiliation:
Aasgaard Mental Hospital, Tromsø, Norway

Extract

Neither older (Raiman, 1902; Ehrenberg, 1909; Wigert, 1918; Reiter, 1925) nor more recent papers (Diethelm, 1936; McFarland and Goldstein, 1939; Holmgren and Wohlfarhrt, 1944) provide general agreement about impairment of glucose tolerance in mental disease. Plum (1958) considers a high incidence of decrease among epileptics established, but while Freeman and Zaborenke (1949) reported a decrease in schizophrenics Shattock (1950) found an increased tolerance in such patients. Waelsch and Weil-Malherbe (1964) comment that a reduction in the rate of glucose utilization in cases of severe depression stands out as perhaps the most significant and constant finding, but Coppen (1967) claims that quite recent work by him and his co-workers (Herzberg, Coppen and Marks, 1968) provided evidence that there was no impairment in glucose tolerance when depressed patients were given diets high in carbohydrate for three or four days before testing. It would be expected that much conflicting evidence could be due to difficulties inherent in psychiatric nosology. But a review of the surprisingly large number of reports which have left the problem unsolved could not but impress one with the rather casual attitudes of some workers to the chemistry of different methods for “blood sugar” determination.

Type
Biochemical Studies
Copyright
Copyright © Royal College of Psychiatrists, 1969 

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References

Ackerman, I. P., Fajans, S. S., and Conn, J. W. (1958). “The development of diabetes mellitus in patients with nondiabetic glycosuria.” Clin. Res., 6, 251.Google Scholar
Annino, J. S. (1960). Clinical Chemistry. Principles and Procedures. 2nd ed. Boston: Little, Brown & Co.; cited by Balter and Efron (1965). This ed. not available. 3rd ed., p. 135 (1964). London: Churchill.Google Scholar
Balter, A. M., and Efron, H. Y. (1965). “Blood saccharoid content in neuropsychiatric patients.” Diabetes, 14, 719723.Google Scholar
Beutler, E., Baluda, C., Sturgeon, P., and Day, R. (1965). “A new genetic abnormality resulting in galactose-1-phosphate uridyltransferase deficiency.” Lancet, i, 353354.Google Scholar
Cohen, A. M. (1960). “Effect of change in environment on the prevalence of diabetes among Yemenite and Kurdish cornmunities.” Israel med. J., 19, 137142.Google Scholar
Conn, J. W. (1958). “The prediabetic state in man.” Diabetes, 7, 347357.Google Scholar
Coppen, A. (1967). “The biochemistry of affective disorders.” Brit. J. Psychiat., 113, 12371264.Google Scholar
Diethelm, O. (1936). “Influence of emotions on dextrose tolerance.” Arch. Neurol. Psychiat. (Chic.), 36, 342361.Google Scholar
Ehrenberg, R. (1909). “Ueber alimentäre Glykosurie bei Psychosen.” Mschr. Psychiat. Neurol., 25, 112.Google Scholar
Ellenberg, M. (1964). “Diabetes in the older age group.” Geriatrics, 19, 4754.Google Scholar
Folin, O., and Wu, H. (1920). “A system of blood analysis. Supplement I. A simplified and improved method for determination of sugar.” J. biol. Chem., 41, 367374.CrossRefGoogle Scholar
Freeman, H., and Zaborenke, R. (1949). “Relation of changes in carbohydrate metabolism to psychotic states.” Arch. Neurol. Psychiat. (Chic.), 61, 569576.Google Scholar
Hansen, Otto (1960). “A micromethod for simultaneous determination of glucose and ketone bodies in blood and glycogen and ketone bodies in liver.” Scand. J. clin. Lab. Invest., 12, 1824.Google Scholar
Hansen, Otto (1962). “Specificity of the glucose oxidase reaction and interference with the quantitative glucose oxidase–peroxidase–o-dianisidine method.” Ibid., 14, 651655.Google Scholar
Hansen, Otto (1964). “Effect of diet on the amount and composition of locust blood carbohydrates.” Biochem. J., 92, 333337.Google Scholar
Hansen, Otto (1966). “A case of behaviour disorder with impaired carbohydrate metabolism.” Scand. J. clin. Lab. Invest., 18, 103111.Google Scholar
Henneman, D. H., Altschule, M. D., and Goncz, R.-M. (1954). “Carbohydrate metabolism in brain disease: II. Glucose metabolism in schizophrenic, manic-depressive, and involutional psychoses.” Arch. int. Med., 94, 402416.Google Scholar
Herzberg, B., Coppen, A., and Marks, V. (1968). “Glucose tolerance in depression.” Brit. J. Psychiat. 114, 627630.Google Scholar
Holmgren, H., and Wohlfarhrt, S. (1944). “Blutzuckerstudien bei Geisteskranken und psychisch Abnormal.” Acta psych. neurol. Scand. Suppl. 31, 1319.Google Scholar
Kingsbury, K. J. (1966). “The relation between glucose tolerance and atherosclerotic vascular disease.” Lancet, ii, 13741379.Google Scholar
McFarland, R. A., and Goldstein, H. (1939). “The biochemistry of manic-depressive psychosis. A review.” Amer. J. Psychiat., 96, 2155.Google Scholar
Mills, G. C. (1965). “Tissue nucleotides in experimental hydrocortisone diabetes in guinea pigs.” Endocrinology, 77, 467474.Google Scholar
Mittel'shtedt, A. A., Bauman, L. K., and Makarova, K. M. (1958). ‘Carbohydrate phosphate metabolism in patients with neuroses accompanied by disturbed sleep and motor activity.’ (Russian only) in Voprosy patogeneza kliniki i lečenija nevrozov (ed. by Alek-sandrovoj, L. I. and Tkaˇeva, R. A.) Moscow: Gosudarstvennoe izdatel'stvo medizinskoj literatury medgiz., p. 121.Google Scholar
Plum, C. M. (1958). “Some investigations on glucose tolerance in epileptics and patients with psychoses.” Acta med. Okayama, 12, 377381.Google Scholar
Raman, E. (1902). “Ueber Glykosurie und alimentäre Glykosurie bei Geisteskranken.” Z. Heilk., 23, 145208.Google Scholar
Reiter, P. J. (1925). Studies on Carbohydrate Metabolism in Psychosis. (Danish only.) M.D. Thesis. Copenhagen: Levin & Munksgaards Forlag, p. 18.Google Scholar
Setyaadmadja, A. T. S. H., Cheraskin, E., and Ringsdorf, W. M. (1965). “Ascorbic acid and carbohydrate metabolism. I. The cortisone glucose tolerance test.” J. Amer. geriat. Soc., 13, 924935.Google Scholar
Setyaadmadja, A. T. S. H., Cheraskin, E., and Ringsdorf, W. M. (1967). “Ascorbic acid and carbohydrate metabolism. II. Effect of supervised sucrose drinks upon two-hour postprandial blood glucose in terms of vitamin C state.” The Journal-Lancet (Minneapolis), 87, 1821.Google Scholar
Shattock, F. M. (1950). “The somatic manifestations of schizophrenia. A clinical study of their significance.” J. ment. Sci., 96, 32142.Google Scholar
Somogyi, M. (1930). “A method for preparation of blood filtrates for the determination of sugar.” J. biol. Chem., 86, 655663.Google Scholar
Waelsch, H., and Weil-Malherbe, H. (1964). “Neurochemistry and psychiatry.” In Psychiatrie der Gegenwart (ed. by Gruhle, H. W., Jung, R., Mayer-Gross, W., and Müller, M.). Berlin, Göttingen, Heidelberg: Springer-Verlag, p. 27.Google Scholar
Walker, D. G. (1966). “The nature and function of hexokinases in animal tissues.” In Essays in Biochemistry, volume 2 (ed. by Campbell, P. N., and Greville, G. D.). London, New York: Academic Press for the Biochemical Society, p. 52.Google Scholar
Wigert, V. (1918). ‘Studies on blood sugar in psychoses with affective depression.’ (Swedish only.) Allm. Sven. läkart., 15, 9931011, 1038–1053 (continued).Google Scholar
Zarowitz, H. (1960). “The prediabetic state.” N.Y. State J. Med., 60, 40564060.Google Scholar
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