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Metabolic balance of manganese in young women

Published online by Cambridge University Press:  24 July 2007

Barbara E. McLeod
Affiliation:
Department of ATutrition, University of Otago School of Ilome Science, Dunedin, New Zealand
Marion F. Robinson
Affiliation:
Department of ATutrition, University of Otago School of Ilome Science, Dunedin, New Zealand
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Abstract

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1. Metabolic balance studies of manganese were made on four young women, using brilliant blue and chromic oxide as faecal markers.

2. Mn concentrations in food, faeces and urine were measured by atomic absorption spectrophotometry.

3. No difference in Mn concentrations was obtained between dry-ashing and wet-digestion for removal of organic matter from food or from faeces.

4. Retentions of 0.05–0.46 mg Mn/d were obtained. Dermal and menstrual losses were not measured or allowed for.

5. Unlike most other Mn balance studies reported, the retentions obtained were consistent with the accepted size and stability of the body pool of Mn in healthy adult subjects.

Type
Clinical and Human Nutrition
Copyright
Copyright © The Nutrition Society 1972

References

Basu, K. P. & Malakar, M. C. (1940). J. Indian chem. Soc. 17, 317.Google Scholar
Cotzias, G. C. (1958). Physiol. Rev. 38, 503.CrossRefGoogle Scholar
Cotzias, G. C. (1962). In Mineral Metabolism Vol. 2, Part B. p. 403 [Comar, C. L. and F, Bronner editors.]. New York: Academic Press.Google Scholar
De, H. N. (1949). Indian J. med. Res. 37, 301.Google Scholar
De, H. N. & Basu, K. P. (1949). Indian J. med. Res. 37, 213.Google Scholar
Down, J. L. & Gorsuch, T. T. (1967). Analyst, Lond. 92, 398.CrossRefGoogle Scholar
Gorsuch, T. T. (1959). Analyst, Lond. 84, 135.CrossRefGoogle Scholar
Healy, W. B. (1966). Analytica china. Acta 34, 238.CrossRefGoogle Scholar
Hegsted, D. M. (1967). J. Am. diet. Ass. 50, 105.CrossRefGoogle Scholar
Hunscher, H. A. (1961). J. Am. diet. Ass. 39, 209.CrossRefGoogle Scholar
Isaksson, B. & Sjogren, B. (1967). Proc. Nutr. Soc. 26, 106.CrossRefGoogle Scholar
Kent, N. L. & McCance, R. A. (1941). Biochem. J. 35, 877.CrossRefGoogle Scholar
Lang, V. M., North, B. B. & Morse, L. M. (1965).J. Nutr. 85, 132.CrossRefGoogle Scholar
McKenzie, J. M. (1969). Studies of the metabolic balance of zinc and copper in four young women. MHSc Thesis, University of Otago.Google Scholar
North, B. B., Leichsenring, J. M. & Norris, L. M. (1960). J. Nutr. 72, 217.CrossRefGoogle Scholar
Schroeder, H. A., Balassa, J. J. & Tipton, I. H. (1966). J. chron. Dis. 19, 545.CrossRefGoogle Scholar
Sharpe, S. J. & Robinson, M. F. (1970). Br. J. Nutr. 24, 489.CrossRefGoogle Scholar
Strohal, P., LuliC, S. & Jelisavčič, O. (1969). Analyst, Lond. 94, 678.CrossRefGoogle Scholar
Swindells, Y. E., Holmes, S. A. & Robinson, M. F. (1968). Br. J. Nutr. 22, 667.CrossRefGoogle Scholar
Tipton, I. H., Stewart, P. L. & Dickson, J. (1969). Hlth Phys. 16, 455.CrossRefGoogle Scholar
Walker, A. R. P. (1962). Am. J. clin. Nutr. 10, 95.CrossRefGoogle Scholar