Can tritiated water-dilution space accurately predict total body water in chukar partridges
Total body water (TBW) volumes determined from the dilution space of injected tritiated water have consistently overestimated actual water volumes (determined by desiccation to constant mass) in reptiles and mammals, but results for birds are controversial. We investigated potential errors in both the dilution method and the desiccation method in an attempt to resolve this controversy. Tritiated water dilution yielded an accurate measurement of water mass in vitro. However, in vivo, this method yielded a 4.6% overestimate of the amount of water (3.1% of live body mass) in chukar partridges, apparently largely because of loss of tritium from body water to sites of dissociable hydrogens on body solids. An additional source of overestimation (approximately 2% of body mass) was loss of tritium to the solids in blood samples during distillation of blood to obtain pure water for tritium analysis. Measuring tritium activity in plasma samples avoided this problem but required measurement of, and correction for, the dry matter content in plasma. Desiccation to constant mass by lyophilization or oven-drying also overestimated the amount of water actually in the bodies of chukar partridges by 1.4% of body mass, because these values included water adsorbed onto the outside of feathers. When desiccating defeathered carcasses, oven-drying at 70 degrees C yielded TBW values identical to those obtained from lyophilization, but TBW was overestimated (0.5% of body mass) by drying at 100 degrees C due to loss of organic substances as well as water.
- OSTI ID:
- 5739152
- Journal Information:
- J. Appl. Physiol.; (United States), Vol. 5
- Country of Publication:
- United States
- Language:
- English
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Related Subjects
WATER
BODY COMPOSITION
BIRDS
BODY FLUIDS
ERRORS
MEASURING METHODS
TRITIUM OXIDES
ANIMALS
BIOLOGICAL MATERIALS
CHALCOGENIDES
HYDROGEN COMPOUNDS
LABELLED COMPOUNDS
MATERIALS
OXIDES
OXYGEN COMPOUNDS
TRITIUM COMPOUNDS
VERTEBRATES
551001* - Physiological Systems- Tracer Techniques