Hostname: page-component-586b7cd67f-rdxmf Total loading time: 0 Render date: 2024-11-23T20:47:00.120Z Has data issue: false hasContentIssue false

Measurement of chemically-available iron in foods by incubation with human gastric juice in vitro

Published online by Cambridge University Press:  26 February 2008

Susan Lock
Affiliation:
Department of Food Science and Nutrition, Queen Elizabeth College, University of London, Campden Hill, London W8 7AH
A. E. Bender
Affiliation:
Department of Food Science and Nutrition, Queen Elizabeth College, University of London, Campden Hill, London W8 7AH
Rights & Permissions [Opens in a new window]

Abstract

Core share and HTML view are not available for this content. However, as you have access to this content, a full PDF is available via the ‘Save PDF’ action button.

1. The proportion of iron liberated from twenty foods was measured after incubation in vitro with human gastric juice.

2. Results with samples of gastric juice obtained from one subject on ten occasions and from sixteen subjects on a single occasion showed good agreement, the proportions of Fe liberated covering the entire range from zero for egg to 1.0 for wine.

3. Where there were small variations between the results obtained with different samples of gastric juice attempts were made to correlate these with peptic activity, various proteins and mucoproteins, pH and total and free acid; the only factors that varied with the proportions of Fe solubilized were the various measures of acidity.

4. The results correlated highly with those of Layrisse et al. (1969) for the in vivo absorption of Fe from similar foods, although the samples used were not the same.

5. The amounts of Fe solubilized when the foods were mixed with bran, oats or egg (known to reduce the in vivo absorption of Fe from foods) were less than calculated from the sum of each, with two exceptions.

6. The results obtained with human gastric juice differed from those obtained with in vitro methods prcviously reported, namely treatment with dilute hydrochloric acid and double incubation with pepsin plus HCI at pH 2.5 followed by adjustment to pH 7.5.

7. The amount of Fe solubilized from soya-bean flour by gastric juice was compared with that solubilized by pepsin plus HCI; both systems were shown to be pH dependent but the amount of Fe liberated with pepsin- HCI was much greater than that known to be absorbed by man in vivo.

8. It is suggested that incubation with human gastric juice may permit in vitro analyses of ‘chemically- available’ Fe in foods and thus be of value in food composition tables in terms of ‘Fe equivalents’ even though the amounts absorbed in vivo are subsequently influenced by other ingredients of the diet and by the Fe status of the individual.

Type
Papers of direct relevance to Clinical and Human Nutrition
Copyright
Copyright © The Nutrition Society 1980

References

REFERENCES

Anson, M. L. (1938). J. Gen. Physiol. 22, 79.CrossRefGoogle Scholar
Basson, W. D. & Böhmer, R. G. (1972). Analyst, Lond. 97, 482.CrossRefGoogle Scholar
Bjorn-Rasmussen, E. (1974). Nutr. Metab. 16, 101.CrossRefGoogle Scholar
Callender, S. T., Marney, S. R. Jn & Warner, G. T. (1970). Br. J. Haemat. 19, 657.CrossRefGoogle Scholar
Davis, P. S., Multani, J. S., Cepurneek, C. P. & Saltman, P. (1969). Biochem. Biophys. Res. Commun. 37, 532.CrossRefGoogle Scholar
Department of Health and Social Security (1969). Recommended Infakes of Nutrients for the United Kingdom, no. 120 London: HM Stationery Office.Google Scholar
Jacobs, A. & Greenman, D. A. (1969). Br. med. J. 1, 673.CrossRefGoogle Scholar
Kohler, G. O., Elvehjem, C. A. & Hart, E. B. (1936). J. biol. Chem. 113, 49.CrossRefGoogle Scholar
Layrisse, M., Cook, J. D., Martinez-Torres, C., Roche, M., Kuhn, I. N., Walker, R. B. & Finch, C. A. (1969). Blood 33, 430.CrossRefGoogle Scholar
Layrisse, M. & Martinez-Torres, C. (1971). Prog. Haemat. 7, 137.Google Scholar
Mg-Mg-Thwin, , Aung-Than-Batu, & Thein-Than, (1975). Am. J. clin. Nutr. 28, 1350,CrossRefGoogle Scholar
Narasinga Rao, B. S. & Prabhavathi, T. (1978). Am. J. clin. Nutr. 31, 169.CrossRefGoogle Scholar
Sanford, R. (1960). Nature, Lond. 185, 533.CrossRefGoogle Scholar
Sharpe, L. M., Peacock, W. C., Cooke, R. & Harris, R. S. (1950). J. Nutr. 41, 433.CrossRefGoogle Scholar