Calorimetric validation of the doubly-labelled water method for determination of energy expenditure in man.

The turnover rates of water and carbon dioxide have been estimated at frequent intervals after a single dose of 2H2 18O had been given to an adult monitored continuously in a whole body calorimeter for 5 d. The integrated CO2 production rate for 5 d, estimated from the differential rates of 2H and 18O excretion in urine, was within 2 per cent of the actual CO2 output, based on an improved method of calculation. Changes occurred in the abundance of 2H and 18O in response to activity, so that the timing of samples was important. It was found better to compute the production rate of CO2 from multiple samples rather than from measurements at only two points of time. The proportion of total water lost by evaporation proved to be less than previously assumed. Direct validation of the technique requires calorimetric studies of 2 to 3 weeks duration, in either animals or human subjects. The potential value of this method for measurement of energy expenditure in man is such that exacting tests of its accuracy and precision are needed before it is adopted for general use in metabolic and epidemiological studies.

[1]  R. White,et al.  Seasonal Energy and Water Metabolism in Free-Living Alaskan Voles , 1982 .

[2]  N. Lifson,et al.  Theory of use of the turnover rates of body water for measuring energy and material balance. , 1966, Journal of theoretical biology.

[3]  Applicability of the D2018 method to the measurement of the total carbon dioxide output of obese mice. , 1957, The Journal of biological chemistry.

[4]  P. Cooper Validation of the Doubly Labeled Water (H3H18O) Method for Measuring Water Flux and Energy Metabolism in Tenebrionid Beetles , 1983, Physiological Zoology.

[5]  W. James,et al.  ENERGY REQUIREMENTS AND OBESITY , 1983, The Lancet.

[6]  J. Durnin,et al.  Body fat assessed from total body density and its estimation from skinfold thickness: measurements on 481 men and women aged from 16 to 72 Years , 1974, British Journal of Nutrition.

[7]  D A Schoeller,et al.  Measurement of energy expenditure in humans by doubly labeled water method. , 1982, Journal of applied physiology: respiratory, environmental and exercise physiology.

[8]  M. J. Dauncey,et al.  Metabolic effects of altering the 24 h energy intake in man, using direct and indirect calorimetry , 1980, British Journal of Nutrition.

[9]  D. Costa Energy, Nitrogen, and Electrolyte Flux and Sea Water Drinking in the Sea Otter Enhydra Lutris , 1982, Physiological Zoology.

[10]  M. J. Dauncey,et al.  A human calorimeter for the direct and indirect measurement of 24 h energy expenditure , 1978, British Journal of Nutrition.

[11]  Shetty Ps,et al.  Metabolic adaptation and energy requirements in developing countries. , 1982 .