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Tryptophan and nutritional status of patients with senile dementia

Published online by Cambridge University Press:  09 July 2009

D. E. Thomas ,
K. O. Chung-A-On ,
J. W. T. Dickerson ,
S. F. Tidmarsh  and
D. M. Shaw
D. E. Thomas*
Affiliation:
Biochemical Psychiatry Laboratory, Department of Psychological Medicine, University of Wales College of Medicine, Whitchurch Hospital, Whitchurch, Cardiff, Department of Biochemistry, Division of Nutrition and Food Science, University of Surrey, Guildford
K. O. Chung-A-On
Affiliation:
Biochemical Psychiatry Laboratory, Department of Psychological Medicine, University of Wales College of Medicine, Whitchurch Hospital, Whitchurch, Cardiff, Department of Biochemistry, Division of Nutrition and Food Science, University of Surrey, Guildford
J. W. T. Dickerson
Affiliation:
Biochemical Psychiatry Laboratory, Department of Psychological Medicine, University of Wales College of Medicine, Whitchurch Hospital, Whitchurch, Cardiff, Department of Biochemistry, Division of Nutrition and Food Science, University of Surrey, Guildford
S. F. Tidmarsh
Affiliation:
Biochemical Psychiatry Laboratory, Department of Psychological Medicine, University of Wales College of Medicine, Whitchurch Hospital, Whitchurch, Cardiff, Department of Biochemistry, Division of Nutrition and Food Science, University of Surrey, Guildford
D. M. Shaw
Affiliation:
Biochemical Psychiatry Laboratory, Department of Psychological Medicine, University of Wales College of Medicine, Whitchurch Hospital, Whitchurch, Cardiff, Department of Biochemistry, Division of Nutrition and Food Science, University of Surrey, Guildford
*
1 Address for correspondence: Mrs D. E. Thomas, St James' Hospital, Locksway Road, Portsmouth PO4 8LD.
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Synopsis

The nutritional status of 23 severely demented patients was compared with that of 23 similarly aged controls in the community. A 3-day weighed intake on all subjects showed lower mean intakes of energy, protein, ascorbic acid and nicotinic acid in the patient group. This group had lower levels of plasma ascorbic acid and red cell folate and of urinary N-methylnicotinamide excretion relative to creatinine. Over a third of both controls and patients had evidence of thiamin deficiency, as judged by a raised percentage erythrocyte transketolase activity. An earlier finding in patients with senile dementia of reduced fasting plasma concentrations of tryptophan was confirmed for total and protein bound fractions. With the possible exception of ascorbic acid, the data could not be explained satisfactorily in terms of intake. It is suggested that the association between the phenomena of ageing, senile dementia and nutritional status merits further investigation.

Type
Research Article
Information
Psychological Medicine , Volume 16 , Issue 2 , May 1986 , pp. 297 - 305
Copyright
Copyright © Cambridge University Press 1986

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References

Asplund, K., Normark, M. & Patterson, V. (1981). Nutritional assessment of psychogeriatric patients. Age and Ageing 10, 8794.Google Scholar
Bates, C. J., Rutishauser, I. H., Black, A. E., Paul, A. A., Mandal, A. R. & Patnaik, B. K. (1979). Long term vitamin status and dietary intake of healthy elderly subjects. 2. Vitamin C. British Journal of Nutrition 42, 4356.Google Scholar
Bates, C. J., Fleming, M., Pahl, A. A., Black, A. E. & Mandal, A. R. (1980). Folate status and its relation to vitamin C in healthy elderly men and women. Age and Ageing 9, 241248.CrossRefGoogle ScholarPubMed
Bates, C. J., Black, A. E., Phillips, D. R., Wright, A. J. A. & Southgate, D. A. T. (1982). The discrepancy between normal folate intakes and the folate RDA. Human Nutrition: Applied Nutrition 36a. 422429.Google Scholar
Bayoumi, R. A. & Rosalki, S. B. (1976). Evaluation of methods of co-enzyme activation of erythrocyte enzymes for detection of deficiency of vitamins B1, B2, and B6. Clinical Chemistry 22, 327335.CrossRefGoogle Scholar
Bonsnes, R. W. & Taussky, H. H. (1945). On the colorimetric determination of creatinine by the Jaffe reaction. Journal of Biological Chemistry 158, 581591.CrossRefGoogle Scholar
Chung-A-On, K. O., Thomas, D. E., Tidmarsh, S. F., Sweeney, A. E., Dickerson, J. W. T. & Shaw, D. M. (1985). Vitamin deficiencies: a factor in senile dementia? In Psychopharmacology and Food (ed. Sandler, M. and Silverstone, T.), pp. 162174. British Association for Psychopharmacology Monograph No. 7. Oxford University Press: Oxford.Google Scholar
Curzon, G. & Knott, P. J. (1974). Effects on plasma and brain tryptophan in the rat, of drug and hormones that influence the concentration of unesterified fatty acids in the plasma. British Journal of Pharmacology 50, 197204.CrossRefGoogle ScholarPubMed
Curzon, G., Friedel, J. & Knott, P. J. (1973). The effect of fatty acids on the binding of tryptophan to plasma protein. Nature 242, 198200.Google Scholar
Denckla, W. D. & Dewey, H. K. (1967). The determination of tryptophan in plasma, liver and urine. Journal of Laboratory and Clinical Medicine 69, 160169.Google Scholar
Denson, K. W. & Bowers, E. F. (1961). The determination of ascorbic acid in white blood cells. A comparison of white blood cell ascorbic acid and phenolic acid excretion in elderly patients. Clinical Science 21, 157162.Google Scholar
Department of Health and Social Security (1979). Recommended daily amounts of food energy and nutrients for groups of people in the United Kingdom. In Reports on Health and Social Subjects, p. 15. HMSO: London.Google Scholar
Dickerson, J. W. T. (1978). The interrelationships of nutrition and drugs. In Nutrition in the Clinical Management of Disease (ed. Dickerson, J. W. T. and Lee, H. A.), pp. 308331. Edward Arnold: London.Google Scholar
Dickerson, J. W. T. & Pao, S. K. (1975). The effect of a low protein diet and exogenous insulin on brain tryptophan and its metabolites in the weanling rat. Journal of Neurochemistry 25, 559564.Google Scholar
Dreyfus, P. M. (1962). Clinical application of blood transketolase determinations. New England Journal of Medicine 267, 596598.CrossRefGoogle ScholarPubMed
Duncombe, W. G. (1964). The colorimetric micro-determination of non-esterified fatty acids in plasma. Clinica Chimica Acta 9, 122125.Google Scholar
Exton-Smith, A. N. (1978). Nutrition in the elderly. In Nutrition in Clinical Management of Disease (ed. Dickerson, J. W. T. and Lee, H. A.), pp. 73104. Edward Arnold: London.Google Scholar
Fernstrom, J. D., Madras, B. K., Munro, H. N. & Wurtman, R. J. (1974). Nutritional control of the synthesis of 5—hydroxytryptamine in the brain. In Aromatic Amino Acids in the Brain. Ciba Foundation Symposium 22 (new series), pp. 153166. Elsevier:Amsterdam.Google Scholar
Goldsmith, G. A. & Miller, O. N. (1967). Determination of methyl derivatives of niacin in urine. In The Vitamins, Vol.7 (ed. Gyorgy, P. and Pearson, W. N.), pp. 137167. Academic Press:London.Google Scholar
Green, H. & Sawyer, J. L. (1966). Demonstration, characterisation and assay procedure of tryptophan hydroxylase in rat brain. Analytical Biochemistry 15, 5364.Google Scholar
Griffiths, L. L., Brocklehurst, J. C., Scott, D. L., Marks, J. & Blackley, J. (1967). Thiamin and ascorbic acid levels in the elderly. Gerontologia Clinica 9, 110.CrossRefGoogle Scholar
Hodges, R. E. & Baker, E. M. (1978). Ascorbic Acid. In Modern Nutrition in Health and Disease (ed. Goodhart, R. G. and Shils, M. E.), pp. 245255. Lee & Febiger: Philadelphia.Google Scholar
Hodkinson, H. M. (1973). Mental impairment in the elderly. Journal of the Royal College of Physicians (London) 7, 305317.Google Scholar
Katakity, M., Webb, J. F. & Dickerson, J. W. T. (1983). Some effects of a food supplement in elderly hospital patients. Human Nutrition: Applied Nutrition 37a, 8593.Google Scholar
Kay, D. W. K., Beamish, P. & Roth, M. (1964). Old age mental disorders in Newcastle upon Tyne. British Journal of Psychiatry 110, 146159.CrossRefGoogle ScholarPubMed
Kay, D. W. K., Bergmann, K. & Foster, E. M. (1970). Mental illness and hospital usage in the elderly. A random sample followed up. Comprehensive Psychiatry 11, 2635.Google Scholar
Laurell, C. B. (1966). Quantitative estimation of proteins by electrophoresis in agarose gel containing antibodies. Analytical Biochemistry 15, 4552.CrossRefGoogle ScholarPubMed
Lehmann, J. (1979). How to investigate tryptophan malabsorption and the value of repeated tryptophan loads. In Origin, Prevention and Treatment of Affective Disorders (ed. Schou, M. and Strömgren, E.), pp. 125138. Academic Press: London.Google Scholar
Lehmann, J., Persson, S., Walinder, J. & Wallin, L. (1981). Tryptophan malabsorption in dementia. Improvement in certain cases after tryptophan therapy as indicated by mental behaviour and blood analysis. Acta Psychiatrica Scandinavica 64, 123131.CrossRefGoogle ScholarPubMed
Loh, H. S. & Wilson, C. W. M. (1971). Relationship of human ascorbic acid metabolism to ovulation. Lancet i, 110112.CrossRefGoogle Scholar
Morgan, D. B. & Hullin, R. P. (1982). The body composition of the chronic mentally ill. Human Nutrition: Clinical Nutrition 36c, 439448.Google Scholar
Older, M. W. J. & Dickerson, J. W. T. (1982). Thiamin and the elderly orthopaedic patient. Age and Ageing 11, 101107.Google Scholar
Paul, A. A. & Southgate, D. A. T. (1979). In McCance and Widdowson's Composition of Foods. HMSO: London.Google Scholar
Platt, B. S., Eddy, T. P. & Pellett, P. L. (1963). Nutritional values. ascorbic acid (vitamin C) In Food in Hospitals. (ed. Platt, B. S., Eddy, T. P. and Pellett, P. L.), pp. 6973. Oxford University Press: London.Google Scholar
Puxty, J. H. (1985). Infections, vitamins and confusion in the elderly. In Vitamin Deficiency in the Elderly (ed. Kemm, J. R. and Ancill, R. J.), pp. 103116. Blackwell Scientific: Oxford.Google Scholar
Riley, G. J. & Shaw, D. M. (1981). Plasma tryptophan binding to albumin in unipolar depressives. Acta Psychiatrica Scandinavica 63, 165172.Google Scholar
Schorah, C. J. (1982). Vitamin C status in population groups. In Vitamin C (ed. Counsell, J. H. N. and Hornig, D. H.), pp. 2347. Applied Science Publishers: London.Google Scholar
Schorah, C. J., Newill, A., Scott, D. L. & Morgan, D. B. (1979). Clinical effects of vitamin C in elderly patients with low blood vitamin C levels. Lancet i, 403405.Google Scholar
Shaw, D. M., Tidmarsh, S. F., Karajgi, B. M., Sweeney, E. A., Williams, S., Elameer, M. & Twining, C. (1981). Pilot study of amino acids in senile dementia. British Journal of Psychiatry 139, 580582.CrossRefGoogle ScholarPubMed
Sneath, P., Chanarin, I., Hodkinson, H. M., McPherson, C. K. & Reynolds, E. M. (1973). Folate status in a geriatric population and its relation to dementia. Age and Ageing 2, 177182.Google Scholar
Stamp, T. C. B., Round, J. M., Rowe, D. J. F. & Haddad, J. G. (1972). Plasma levels and therapeutic efficacy of 25–hydroxycholecalciferol in epileptic patients taking anticonvulsant drugs. British Medical Journal iv, 912.Google Scholar
Tagliamonte, A., Biggio, G., Vargiu, L. & Gessa, G. L. (1973). Increased of brain tryptophan and stimulation of serotonin synthesis by salicylates. Journal of Neurochemistry 20, 909912.Google Scholar
Vir, S. C. & Love, A. H. G. (1979). The nutritional status of institutionalised and non-institutionalised aged in Belfast. American Journal of Clinical Nutrition 32, 19341947.CrossRefGoogle Scholar
Windsor, A. C. M. (1979). Nutrition in the elderly. The Practitioner 222, 625629.Google ScholarPubMed