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Protein requirements in tropical countries: nitrogen losses in sweat and their relation to nitrogen balance

Published online by Cambridge University Press:  09 March 2007

Ann Ashworth
Affiliation:
Medical Research Council, Tropical Metabolism Research Unit, University of the West Indies, Jamaica
A. D. B. Harrower
Affiliation:
University of Edinburgh Medical School, Edinburgh
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Abstract

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1. An experiment was undertaken to determine whether high rates of sweating in a tropical climate affect protein requirements by increasing the total nitrogen losses from the body.

2. Six fully acclimatized volunteers were given a diet supplying 50 g protein (= 8 g N) daily. They performed strenuous physical work of a normal nature for an average of 6½ h a day for two 5-day periods. During control periods the subjects took minimal exercise and lived in a cool environment. N balance was measured throughout.

3. Rates of sweating were measured by weighing. Whole body sweat was collected and the concentrations were measured of nitrogen, sodium and potassium. During 6½ h work approximately 3 l. of sweat were lost, containing on average 0·49 g N, 64 m-equiv. Na and 22 m-equiv. K.

4. The N concentration in sweat was 0·20 mg/g, which is lower than that found by most other workers. It is suggested that acclimatization is an important factor in reducing N loss by sweating.

5. There was a marked decrease in urinary Na excretion during sweating, which compensated fully for the loss of Na in sweat. Renal compensation for loss of K was less efficient.

6. Because the total N loss in sweat was small, it was not possible to establish with certainty whether it was compensated for by a reduced renal excretion of N. However, after the initial period the subjects were in N balance in spite of the relatively low protein intake.

7. It is concluded that there is no evidence to suggest that heavy sweating under natural conditions in a tropical climate causes a significant increase in protein requirements.

Type
Research Article
Copyright
Copyright © The Nutrition Society 1967

References

Bass, D. E., Kleeman, C. R., Quinn, M., Henschel, A. & Hegnauer, A. H. (1955). Medicine 34, 323.CrossRefGoogle Scholar
Consolazio, C. F., Johnson, R. E. & Pecora, L. J. (1963). Physiological Measurements of Metabolic Functions in Man. New York: McGraw-Hill Book Company Inc.Google Scholar
Consolazio, C. F., Matoush, L. O., Nelson, R. A., Isaac, G. J. & Canham, J. E. (1966). Am. J. clin. Nutr. 18, 443.CrossRefGoogle Scholar
Consolazio, C. F., Nelson, R. A., Matoush, L. O., Harding, R. S. & Canham, J. E. (1963). J. Nutr. 79, 399.CrossRefGoogle Scholar
Daly, C. & Dill, D. B. (1937). Am. J. Physiol. 118, 285.CrossRefGoogle Scholar
Kleeman, C. R., Bass, D. E. & Quinn, M. (1953). J. clin. Invest. 32, 736.CrossRefGoogle Scholar
Ladell, W. S. S. (1948). J. Physiol., Lond. 107, 465.CrossRefGoogle Scholar
Mickelsen, O. & Keys, A. (1943). J. biol. Chem. 149, 479.CrossRefGoogle Scholar
Mitchell, H. H. & Edman, M. (1962). Am. J. clin. Nutr. 10, 163.CrossRefGoogle Scholar
Molnar, G. W., Towbin, E. J., Gosselin, R. E., Brown, A. H. & Adolph, E. F. (1946). Am. J. Hyg. 44, 411.Google Scholar
Robinson, S. & Robinson, A. H. (1954). Physiol. Rev. 34, 202.CrossRefGoogle Scholar
Scrimshaw, N. S., Habicht, J. P., Piché, M. L., Cholakos, B. & Arroyave, G. (1966). Am. J. clin. Nutr 18, 321.CrossRefGoogle Scholar
van Heyningen, R. & Weiner, J. S. (1952). J. Physiol., Lond. 116, 395.CrossRefGoogle Scholar