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Water turnover and the measurement of milk intake (1982)

Coward, W. A. ; Cole, T. J. ; Gerber, H. ; [et al.]

Springer

Pflügers Archiv 393 (1982), S. 344-347

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ISSN: 1432-2013

Keywords: Milk intake ; Water turnover ; Non-steady state

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Physiologically acceptable methods for estimating milk intake in experimental animals are based on the measurement of rates of disappearance of3H2O from their body-water. This work discusses the problems involved in using methods of this type when steady-states (constant tracee inflow and outflow rates, and constant pool-size) do not exist. Theoretically sound techniques are developed and their use justified.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00581422

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Measurements of energy expenditure using isotope-labelled water (2H2 180) during an Arctic expedition (1993)

Stroud, M. A. ; Coward, W. A. ; Sawyer, M. B.

Springer

European journal of applied physiology 67 (1993), S. 375-379

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ISSN: 1439-6327

Keywords: Oxygen-18 ; Deuterium

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Estimates of energy expenditure using both isotope-labelled (2H2 180) water and dietary intake/body composition changes were made during an attempt by two men (MS and RF) to walk to the North Pole. The isotope-labelled water technique gave mean estimates of daily energy expenditure for the 48-day expedition of 28.05 MJ (MS) and 32.38 MJ (RF), which compared with estimates of 25.66 MJ (MS) and 24.86 MJ (RF) from the intake/body composition measurements. Fluid retention and peripheral oedema probably caused a considerable underestimate of the losses in body energy stores when applying the energy balance method, whereas in the isotope method, uncertainty in the measurements of isotopic background led to minimum errors of −4.9% to +4.0% of the means for MS and −12.7% to +8.2% for RF (95% confidence limits).

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00357638

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Energy expenditure using isotope-labelled water (2H2 18O), exercise performance, skeletal muscle enzyme activities and plasma biochemical parameters in humans during 95 days of endurance exercise with inadequate energy intake (1997)

Stroud, M. A. ; Ritz, P. ; Coward, W. A. ; [et al.]

Springer

European journal of applied physiology 76 (1997), S. 243-252

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ISSN: 1439-6327

Keywords: Key words Energy expenditure ; Isotope-labelled water ; Exercise performance ; Oxygen-18 ; Deuterium

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Two men, R.F. and M.S., pulled sledges each with starting masses of 222 kg, 2300 km across Antarctica. Exercise was performed for approximately 10 h each day for 95 days. Despite an average energy intake of 21.3 MJ · day−1 both subjects lost more than 25% of body weight. Energy expenditure was measured using energy balance data (EB) and isotope-labelled water (2H2 18O). Isotope doses were taken on day 0 and day 50 of the expedition. During the first 50 days both methods gave reasonable agreement, giving energy expenditures of 38.3 (EB) and 35.5 (2H2 18O) MJ · day−1 in R.F. and 28.6 (EB) and 29.1 (2H2 18O) MJ · day−1 in M.S. The isotope data for days 20–30 yielded exceptional values of 44.6 MJ · day−1 in R.F. and 48.7 MJ · day−1 in M.S. Estimates of energy expenditure between day 51 and day 96 were much lower and although the methods were in agreement for R.F. – 24.1 (EB) and 23.1 (2H2 18O) MJ · day−1, there was poor agreement for MS – 26.8 (EB) and 18.8 (2H2 18O) MJ · day−1. However, some practical difficulties occurred during this second period and there were also problems arising from marked increases in body water that made estimates of body mass and composition change difficult to interpret. The latter problems were probably due to malnutrition, which may have also been responsible for surprising increases in urinary excretion of 2H and 18O observed in both men at around day 81. These increases may reflect the release of label incorporated into molecules other than water which do not normally freely exchange with the body water pool under the circumstances of marked malnourishment. Following the expedition, both men showed declines in maximal O2 consumption (V˙O2 max , 53.6 to 41.2 ml O2 kg−1 · min−1 in R.F., 58.1–46.0 ml O2 kg−1 · min−1 in M.S.); maximal voluntary isometric force production in different muscle groups (up to 19.9% in R.F. and 55.8% in M.S.) and both cytoplasmic and mitochondrial skeletal muscle enzyme activities (up to 56% in R.F. and 63% in M.S.). Plasma samples taken during the expedition showed low glucose levels, inappropriately high insulin levels, and declines in testosterone and luteinizing hormone. Thyroxine, cholesterol, albumin and triglyceride levels remained normal.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004210050243

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A rapid analytical technique for the determination of energy expenditure by the doubly labelled water method (1985)

Barrie, A. ; Coward, W. A.

Chichester : Wiley-Blackwell

Biological Mass Spectrometry 12 (1985), S. 535-541

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ISSN: 1052-9306

Keywords: Chemistry ; Analytical Chemistry and Spectroscopy

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Chemistry and Pharmacology

Notes: The doubly labelled water method involves the administration of water enriched in 2H and 18O followed by determination of the turnover rates of these isotopes. Since 18O is eliminated from the body as both CO2 and water, while 2H leaves only as water, the difference between the two turnover rates provides a measure of CO2 production and hence energy expenditure. Isotopic analysis by conventional stable isotope ratio analysis (SIRA) is labour intensive and time consuming, as it requires off-line conversion of water samples to gases (H2 and CO2) followed by sequential analysis for each of the two isotopes using the mass spectrometer. Lack of suitable automated instrumentation with the ability to process large numbers of samples has prevented routine application of the method. We describe here an automated technique in which body water samples (urine, saliva, breath water or milk) are analysed simultaneously for 2H and 18O. The single bench system comprises two mass spectrometer analysers, one for measuring 2H from H2 gas, the other for measuring 18O from the water vapour (masses 18, 20). Both analysers share a common heated inlet system into which microlitre quantities of the body fluids are injected from an autosampler (102 samples). The water vapour flows both directly to one analyser for 18O measurement and into a uranium reduction furnace for conversion to H2, prior to 2H measurement by the second analyser. Both analysers also share vacuum and electronic components, enabling savings in both space and cost. In this paper we present results illustrating performance characteristics and procedures for routine application to human subjects. Energy expenditure determinations can be made using less than three hours of instrument time per subject.

Additional Material: 5 Ill.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1002/bms.1200120916

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