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The erythrocyte membrane in kwashiorkor

Published online by Cambridge University Press:  26 July 2012

W. A. Coward
W. A. Coward
Affiliation:
Medical Research Council Child Nutrition Unit, PO Box 6717, Kampala, Uganda
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Abstract

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1. Erythrocytes from Ugandan children with untreated kwashiorkor had membranes containing larger amounts of lecithin than erythrocytes collected during the recovery phase.

2. The passive permeability of the erythrocyte membrane to glycerol and thiourea was reduced in kwashiorkor and returned to a more normal value on treatment.

3. The results are discussed in the light of similar findings of high erythrocyte lecithin concentrations in various liver diseases.

Type
Research Article
Information
British Journal of Nutrition , Volume 25 , Issue 1 , January 1971 , pp. 145 - 151
Copyright
Copyright © The Nutrition Society 1971

References

REFERENCES

Allen, D. M. & Dean, R. F. A. (1965). Trans. R. Soc. trop. Med. Hyg. 59, 326.CrossRefGoogle Scholar
Balint, J. A., Nyhan, W. L., Lietman, P. & Turner, D. A. (1961) J. Lab. clin. Med. 58, 548.Google Scholar
Balint, J. A., Spitzer, H. L. & Kyriakides, E. C. (1963). J. clin. Invest. 42, 1661.CrossRefGoogle Scholar
Boon, J., Broekhuyse, R. M., van Munstcr, P. & Schretlen, E. (1969). Clinica chim. Acta 23, 453.CrossRefGoogle Scholar
Coward, D. G., Sawyer, M. B. & Whitehead, R. G. (1970). Am. J. clin. Nutr. (In the Press).Google Scholar
Cravioto, J., De La Pena, C. L. & Burgos, G. (1959). Metabolism 8, 722.Google ScholarPubMed
Dawson, R. M. C., Hemington, N. & Lindsay, D. B. (1960). Biochem. J. 77, 226.CrossRefGoogle Scholar
Dodge, J. T., Mitchell, C. & Hanahan, D. J. (1963). Archs Biochem. Biophys. 100, 119.CrossRefGoogle Scholar
Emmons, W. F. (1927). J. Physiol., Lond. 64, 215.CrossRefGoogle Scholar
Folch, J., Lees, M. & Stanley, G. H. S. (1957). J. biol. Chem. 226, 497.CrossRefGoogle Scholar
Hooghwinkel, G. J. M., van Gelderen, H. N. & Staal, A. (1969). Archs Dis. Childh. 44, 197.CrossRefGoogle Scholar
Jacobs, M. H., Glassmann, H. N. & Parpart, A. K. (1950). J. exp. Zool. 113, 277.CrossRefGoogle Scholar
Lanzkowsky, P., McKenzie, D., Katz, S., Hoffenberg, R., Friedman, R. & Black, E. (1967). Br. J. Haemat. 13, 639.CrossRefGoogle Scholar
Marinetti, G. V. (1962). J. Lipid Res. 3, 1.CrossRefGoogle Scholar
Mönckeberg, F. (1968). In Calorie Deficiencies and Protein Deficiencies p. 91 [McCanceand, R. A., Widdowson, E. M., editors]. London: J. & A. Churchill Ltd.Google Scholar
Nye, W. H. R. & Marinetti, G. V. (1967). Proc. Soc. exp. Biol. Med. 125, 1220.CrossRefGoogle Scholar
Parker, F. & Peterson, N. F. (1965). J. Lipid Res. 6, 455.CrossRefGoogle Scholar
Pitcher, C. S. & Williams, R. (1963). Clin. Sci. 24, 239.Google Scholar
Reed, C. F. (1959). J. clin. Invest. 38, 1032.Google Scholar
Roelofsen, B., Gier, J., de & van Deenen, L. L. M. (1964). J. cell. comp. Physiol. 63, 1.CrossRefGoogle Scholar
Schwarz, K. & Dean, R. F. A. (1957). J. trop. Pediat. 3, 23.CrossRefGoogle Scholar
Staff, T. H. E. (1968). E. Afr. med. J. 45, 399.Google Scholar
van Deenen, L. L. M. (1965). Chem. Fats 8, 92.Google Scholar
Ways, P., Reed, C. F. & Hanahan, D. J. (1963). J. clin. Invest. 42, 1248.CrossRefGoogle Scholar
Zöllner, N. & Wolfram, G. (1962). Klin. Wschr. 40, 1101.CrossRefGoogle Scholar