N A Bell1, P D McClure, R J Hill, P S Davies. 1. School of Human Movement Studies, Faculty of Health, Queensland University of Technology, Brisbane, Australia.
Abstract
OBJECTIVE: To investigate the accuracy of foot-to-foot impedance methodology for the prediction of total body water and whether leg length rather than stature should be used in the prediction of total body water. DESIGN: Cross-sectional study using volunteers from the community. SETTING: University laboratory. SUBJECTS: 57 subjects (29 male; 28 female) aged 19-56 y. INTERVENTIONS: Total body water was measured using a deuterium oxide dilution technique. Total body water was also predicted using foot-to-foot impedance apparatus (Tanita Inc, Tokyo, Japan, Model TBF 305). RESULTS: Mean values for predicted and measured total body water differed by 0.71. However this bias was not constant across all individuals with a progressive underestimation of total body water by foot-to-foot impedance technology as the water content of the body increases. Also the use of leg length did not improve the accuracy of the prediction equation. CONCLUSIONS: At the population level predictions of total body water obtained from foot-to-foot impedance technology compare well with measured total body water. However the significant correlation between the difference between predicted and measured total body water and the absolute value for total body water is a concern especially if the technology is used for body composition assessment during a weight loss program.
OBJECTIVE: To investigate the accuracy of foot-to-foot impedance methodology for the prediction of total body water and whether leg length rather than stature should be used in the prediction of total body water. DESIGN: Cross-sectional study using volunteers from the community. SETTING: University laboratory. SUBJECTS: 57 subjects (29 male; 28 female) aged 19-56 y. INTERVENTIONS: Total body water was measured using a deuterium oxide dilution technique. Total body water was also predicted using foot-to-foot impedance apparatus (Tanita Inc, Tokyo, Japan, Model TBF 305). RESULTS: Mean values for predicted and measured total body water differed by 0.71. However this bias was not constant across all individuals with a progressive underestimation of total body water by foot-to-foot impedance technology as the water content of the body increases. Also the use of leg length did not improve the accuracy of the prediction equation. CONCLUSIONS: At the population level predictions of total body water obtained from foot-to-foot impedance technology compare well with measured total body water. However the significant correlation between the difference between predicted and measured total body water and the absolute value for total body water is a concern especially if the technology is used for body composition assessment during a weight loss program.
Authors: Vithanage P Wickramasinghe; Sanath P Lamabadusuriay; Geoff J Cleghorn; Peter S Davies Journal: Indian J Pediatr Date: 2008-12-04 Impact factor: 1.967
Authors: Vithanage P Wickramasinghe; Sanath P Laabadusuriya; Geoff J Cleghorn; Peter S Davies Journal: Indian J Pediatr Date: 2010-01-26 Impact factor: 1.967