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Absorption of vitamin C from the human buccal cavity

Published online by Cambridge University Press:  09 March 2007

F. Sadoogh-Abasian
Affiliation:
Department of Biochemistry, Chelsea College (University of London), Manresa Road, LondonSW3 6LX
D. F. Evered
Affiliation:
Department of Biochemistry, Chelsea College (University of London), Manresa Road, LondonSW3 6LX
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Abstract

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1. Ascorbic acid was absorbed across the mucosa of the human mounth.

2. Omission of sodium ions from the medium decreased the absorption of ascorbic acid.

3. The presence of D-glucose, or 3-O-methyl-D-glucose, incrased the absorption of ascorbic acid but D-fructose had little effect and D-mannitol had no effect.

4. Calcium ions also increased ascorbic acid absorption probably by a secondary effect on Na+ fluxes.

5. Buccal mucosa was also premeable to dehydroascorbic acid and D-isoascorbic. acid

Type
Papers of direct relevance to Clinical and Human Nutrition
Copyright
Copyright © The Nutrition Society 1979

References

Barakat, M. Z., El-Wahab, M. F. A. & El-Sadr, M. M. (1955). Anulyt. Chem. 27, 536.CrossRefGoogle Scholar
Barkbam, P. & Howard, A. N. (1958). Biochem. J. 70, 163.Google Scholar
Beckett, A. H. & Hossie, R. D. (1971). Hundb. exp. Phurmuc. 28, 226.Google Scholar
Bessey, O. A., Lowry, O. H. & Brock, M. J. (1947). J. biol. Chem. 168, 197.CrossRefGoogle Scholar
Campbell, P. N. (1952). Biochem. J. 52, 444.CrossRefGoogle Scholar
Campbell, P. N. & Young, F. G. (1952). Biochem. J. 52, 439.CrossRefGoogle Scholar
Christine, L., Thomson, G., Iggo, B., Brownie, A. C. & Stewart, C. P. (1956). Clinica chim. Acta 1, 557.CrossRefGoogle Scholar
Davis, M. G., Murphy, P. R., Crawshaw, S. J. & MacGladrie, K. (1977) Nutr. Metab. 21 (suppl. I), 266.CrossRefGoogle Scholar
Eastoe, J. E. (1961).In Biochemists Handbook, p. 907 [Long, C., editor]. London: Spon Ltd.Google Scholar
Evered, D. F. & Sadoogh-Abasian, F. (1979). Br. J. Nutr. 41, 47.CrossRefGoogle Scholar
Hughes, R. E. & Maton, S. C. (1968). Br. J. Huemat. 14, 247.CrossRefGoogle Scholar
McMullan, J. M., Manning, A. S. & Evered, D. F. (1977). Biochem. Soc. Trans. 5, 129.CrossRefGoogle Scholar
Manning, A. S. & Evered, D. F. (1976). Clin. Sci. mol. Med. 51, 127.Google Scholar
Moffat, A. C. (1968). PhD thesis, University of London.Google Scholar
Odumosu, A. & Wilson, C. W. M. (1971). Proc. Nutr. Soc. 30, 81A.Google Scholar
Odumosu, A. & Wilson, C. W. M. (1977). Int. J. Vit. Nutr. Res. 47, 135.Google Scholar
Patterson, J. W. & Mastin, D. W. (1951). Am. J. Physiol. 167, 119.CrossRefGoogle Scholar
Schultz, S. G. & Curran, P. F. (1970). Physiol. Revs. 50, 637.CrossRefGoogle Scholar
Sigrist-Nelson, K. & Hopfer, U. (1974). Biochim. biophys. Acta 367, 247.CrossRefGoogle Scholar
Spencer, R. P., Purdy, S., Hoeldtke, R., Bow, T. M. & Markulis, M. A. (1963). Gastroenterology 44, 768.CrossRefGoogle Scholar
Stevenson, N. R. (1974). Gastroenterology 67, 952.CrossRefGoogle Scholar
Stevenson, N. R. & Brush, M. K. (1969). Am. J. clin. Nutr. 22, 318.CrossRefGoogle Scholar
Varley, H. (1967). In Practical CIinicul Biochemistry, 4th ed., p. 486. London: Heinemann.Google Scholar