1. Total body water measurement by a modification of the bioimpedance spectroscopy method
- Author
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Roland Kieffer, Marie-Valérie Moreno, Michel Y. Jaffrin, and Marianne Fenech
- Subjects
Adult ,Male ,medicine.medical_specialty ,Adolescent ,Body water ,Biomedical Engineering ,Analytical chemistry ,Mean difference ,Absorptiometry, Photon ,Body Water ,Bioimpedance spectroscopy ,Renal Dialysis ,Electric Impedance ,medicine ,Humans ,Aged ,Mathematics ,Spectrum Analysis ,Healthy subjects ,Human physiology ,Middle Aged ,Multifrequency bioimpedance ,Computer Science Applications ,Total body water measurement ,Surgery ,Female ,Whole body - Abstract
We propose a method for calculating directly total body water (TBW) volumes (V (t)) from whole body resistance extrapolated at infinite frequency (R (infinity)) using a XITRON 4200 impedance meter. Mean TBW resistivities for men and women were determined from measurements of R (infinity) and fat-free mass (FFM(d)) measured by DXA in 58 healthy subjects assuming an average hydration coefficient of 73.2%. Mean differences between V (t) measured by our new method and those deduced from DXA data were +0.11 +/- 1.61 L for women and +0.13 +/- 2.16 L for men. For validation, this method was tested with the same resistivities against a 2nd group of 16 volunteers and the mean difference between V (t) from impedance and DXA was -0.80 +/- 1.43 L. Since the resistance at 50 kHz (R (50)) was found to be equal, in average, to 1.230 R (infinity) for men and 1.223 R (infinity) for women, this method can also be applied at 50 kHz with a similar accuracy by estimating R (infinity) from R (50). When our new method was applied to the monitoring of water loss during 28 dialysis runs performed on 13 patients, it predicted a mean water loss equal to 94% of ultrafiltered volume.
- Published
- 2006
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