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Influence of mild cold on 24 h energy expenditure, resting metabolism and diet-induced thermogenesis

Published online by Cambridge University Press:  09 March 2007

M. J. Dauncey
Affiliation:
MRC Dunn Calorimetry Group, ARC Institute of Animal Physiology, Babraham, Cambridge CB2 4AT
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Abstract

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1. It has been suggested previously that people in developed countries do not expose themselves to cold severe enough to induce a metabolic response. The energy expenditure, as both heat production and total heat loss, of nine women was therefore measured continuously while each lived for 30 h in a whole-body calorimeter on two occasions, one at 28° and the other at 22°. All subjects followed a predetermined pattern of activity and food intake. The environmental conditions were judged by the subjects to be within those encountered in everyday life. In the standard clothing worn, 28° was considered to be comfortably warm but not too hot, while 22° was judged to be cool but not too cold.

2. Heat production for 24 h was significantly greater at the lower temperature, by (mean ± SE) 7.0 ± 1.1%. The range was between 2 and 12%. Total heat loss was also significantly greater, by 6%, and there was a large change in the partition of heat loss. At the lower temperature sensible heat loss increased by 29% while evaporative heat loss decreased by 39%.

3. Resting metabolism measured in the morning 12–13 h after the last meal was significantly greater at 22° than at 28°, whereas there was no difference when the resting measurement was made for 2.5 h following a meal.

4. In conclusion: (a)environmental temperature may play a more important role than was previously recognized in the energy balance of those living in this country, and (b) there is an indication of at least a partial replacement of cold-induced by diet-induced thermogenesis in man.

Type
Papers of direct relevance to Clinical and Human Nutrition
Copyright
Copyright © The Nutrition Society 1981

References

REFERENCES

Aschoff, J. & Heise, A. (1972). In Advances in Climatic Physiology, p. 334 [Itoh, S., K., Ogaka and Yoshimura, H., editors]. Tokyo: Igaku Shoin Ltd.CrossRefGoogle Scholar
Barrand, M. A., Dauncey, M. J. & Ingram, D. L. (1981). J. Physiol., Lond. (In the Press).Google Scholar
Blatteis, C. M. & Lutherer, L. O. (1976). J. appl. Physiol. 41, 848.CrossRefGoogle Scholar
Buguet, A. G. C., Livingstone, S. D., Reed, L. D. & Limmer, R. E. (1976). J. appl. Physiol. 41, 142.CrossRefGoogle Scholar
Bukowiecki, L., Follca, N., Paradis, A. & Collet, A. (1980). Am. J. Physiol. 238, E552.Google Scholar
Burton, A. C. & Edholm, O. G. (1955). Man in a Cold Environmenr. London: Edward Arnold.Google Scholar
Buskirk, E. R., Thompson, R. H., Moore, R. & Whedon, G. D. (1960). Am. J. din. Nurr. 8, 602.Google Scholar
Buskirk, E. R., Thompson, R. H. & Whedon, G. D. (1963). J. appl. Physiol. 18, 603.CrossRefGoogle Scholar
Cannon, P. & Keatinge, W. R. (1960). J. Physiol., Lond. 154, 329.CrossRefGoogle Scholar
Cipriano, L. F. & Goldman, R. F. (1975). J. appl. Physiol. 39, 796.CrossRefGoogle Scholar
Close, W. H., Dauncey, M. J. & Ingram, D. L. (1980). Br. J. Nutr. 43, 87.CrossRefGoogle Scholar
Dauncey, M. J. (1979 a). J. hum. Nutr. 33, 259.Google Scholar
Dauncey, M. J. (1979 b). Nutr. Fd Sci. 60, 20.Google Scholar
Dauncey, M. J. & Ingram, D. L. (1979). Br. J. Nutr. 41, 361.CrossRefGoogle Scholar
Dauncey, M. J. & Murgatroyd, P. R. (1978). J. Physiol., Lond. 284, 7p.Google Scholar
Dauncey, M. J., Murgatroyd, P. R. & Cole, T. J. (1978). Br. J. Nurr. 39, 557.CrossRefGoogle Scholar
Dauncey, M. J., Wooding, F. B. P. & Ingram, D. L. (1981). Res. vet. Sci. (In the Press).Google Scholar
Davies, T. R. A. (1963). Fedn. Proc. Fedn. Am. Socs exp. Biol. 22, 777.Google Scholar
DuBois, D. & DuBois, E. F. (1916). Archs intern. Med. 17, 836.Google Scholar
Durnin, J. V. G. A. & Womersley, J. (1974). Br. J. Nurr. 32, 77.CrossRefGoogle Scholar
Foster, D. O. & Frydman, M. L. (1979). Can. J. Physiol. Pharmac. 57, 257.CrossRefGoogle Scholar
Garrow, J. S. (1978). Energy Balance and Obesity in Man, 2nd ed. Amsterdam, New York and Oxford: Elsevier/North-Holland Biomedical Press.Google Scholar
Hammel, H. T., Elsner, R. W., Le Messurier, D. H., Andersen, H. T. & Milan, F. A. (1959). J. appl. Physiol. 14, 605.CrossRefGoogle Scholar
Heath, M. E. (1978). Morphological, physiological and behavioural differences of piglets reared in a cold or a hot environment. PhD Thesis, University of Cambridge.Google Scholar
Heaton, J. M. (1972). J. Anat. 112, 35.Google Scholar
Horvath, S. M., Radcliffe. C. E., Hutt, B. K. & Spurr, G. B. (1955). J. appl. Physiol. 8, 145.CrossRefGoogle Scholar
Horvath, S. M., Spurr, G. B., Hutt, B. K. & Hamilton, L. H. (1956). J. appl. Physiol. 8, 595.CrossRefGoogle Scholar
Iampietro, P. F., Vaughan, J. A., Goldman, R. F., Kreider, M. B., Masucci, F. & Bass, D. E. (1960). J. appl. Physiol. 15, 632.CrossRefGoogle Scholar
Ingram, D. L., Dauncey, M. J., Barrand, M. A. & Callingham, B. A. (1979). In Cutecholamines and Stress, p. 273 [Usdin, E., Kvetnansky, R., & Kopin, I. J., editors]. New York: Elsevier/North Holland Biomedical Press.Google Scholar
Irving, L., Andersen, D. L., Bolstad, A., Elsner, R., Hildes, J. A., Løyning, Y., Nelms, J. D., Peyton, L. J. & Whaley, R. D. (1960). J. appl. Physiol. 15, 635.CrossRefGoogle Scholar
Itoh, S. (1974). Physiology of Cold-Adapted Man, p. 55. Sapporo: Buneido.Google Scholar
James, W. P. T., Dauncey, M. J., Jung, R. T., Shetty, P. S. & Trayhurn, P. (1979). In Genetic Models of Obesity in Laboratory Animals and in Man, p. 221 [Festing, M., editor]. London: Macmillan.CrossRefGoogle Scholar
Jéquier, E., Gygax, P.-H., Pittet, P. & Vannotti, A. (1974). J. appl. Physiol. 36, 674.CrossRefGoogle Scholar
Joy, R. J. T. (1963). J. appl. Physiol. 18, 1209.CrossRefGoogle Scholar
Jung, R. T., Shetty, P. S., James, W. P. T., Barrand, M. A. & Callingham, B. A. (1979). Nature, Lond. 279, 322.CrossRefGoogle Scholar
Kreider, M. B. & Iampietro, P. F. (1959). J. appl. Physiol. 14, 765.CrossRefGoogle Scholar
Kuroshima, A., Konno, N. & Itoh, S. (1967). Jap. J. Physiol. 17, 523.CrossRefGoogle Scholar
LeBlanc, J. (1975). Man in the Cold. Illinois: Charles C. Thomas.Google Scholar
LeBlanc, J. & Mount, L. E. (1968). Nature, Lond. 217, 77.CrossRefGoogle Scholar
Lusk, G. (1928). The Elements of the Science of Nutrition, 4th ed. Philadelphia and London: W. B. Saunders Co.Google Scholar
Metropolitan Life Insurance Company, New York (1960). Stat. Bull. 41, 02 p. 6 and 03 p. 1.Google Scholar
Newsholme, E. A. & Crabtree, B. (1976). Biochem. Soc. Symp. 41, 61.Google Scholar
Nicholls, D. G. (1979). Biochim. biophys. Acta. 549, 1.CrossRefGoogle Scholar
Rochelle, R. H. & Horvath, S. M. (1969). J. appl. Physiol. 27, 710.CrossRefGoogle Scholar
Rothwell, N. J. & Stock, M. J. (1979). Nature, Lond. 281, 31.CrossRefGoogle Scholar
Rubner, M. (1902). Die Gesetze des Energieverbrauchs bei akr Ernahrung. Leipzig und Wien; Franz Deuticke; translation into English by A. Markoff and A. Sandri-White [Joy, R. J. T., editor]. Natick, Massachusetts: United States Army Research Institute of Environmental Medicine.Google Scholar
Scholander, P. F., Hammel, H. T., Andersen, K. L. & Løyning, Y. (1958). J. appl. Physiol. 12, 1.CrossRefGoogle Scholar
Scholander, P. F., Hammel, H. T., Hart, J. S., Le Messurier, D. H. & Steen, J. (1958). J. appl. Physiol. 13, 211.CrossRefGoogle Scholar
Smith. R. E. (1964). Science, N. Y. 146, 1686.CrossRefGoogle Scholar
Smith, R. E. & Roberts, J. C. (1964). Am. J. Physiol. 206, 143.CrossRefGoogle Scholar
Stirling, J. L. & Stock, M. J. (1968). Nature, Lond. 220, 801.CrossRefGoogle Scholar
Stucki, J. W. & Ineichen, E. A. (1974). Eur. J. Biochem. 48, 365.CrossRefGoogle Scholar
Tanuma, Y., Yamamoto, M., Ito, T. & Yokochi, C. (1975). Arch. histol. Jap. 38, 43.CrossRefGoogle Scholar
Thurlby, P. L. & Trayhurn, P. (1980). Pflügers Arch. 385, 193.CrossRefGoogle Scholar
Wyndham, C. H. & Momson, J. F. (1958). J. appl. Physiol. 13, 219.CrossRefGoogle Scholar