Segmental body composition assessed by bioelectrical impedance analysis and DEXA in humans

Bracco, David, Daniel Thiébaud, René L. Chioléro, Michel Landry, Peter Burckhardt, and Yves Schutz.Segmental body composition assessed by bioelectrical impedanceanalysis and DEXA in humans. J. Appl.Physiol. 81(6): 2580-2587, 1996.The present study assessed the relative contribution of each body segment to wholebody fat-free mass (FFM) and impedance and explored the use ofsegmental bioelectrical impedance analysis to estimate segmental tissuecomposition. Multiple frequencies of whole body and segmentalimpedances were measured in 51 normal and overweight women. Segmental tissue composition was independentlyassessed by dual-energy X-ray absorptiometry. The sum ofthe segmental impedance values corresponded to the whole body value(100.5 ± 1.9% at 50 kHz). The arms and legs contributed to 47.6 and 43.0%, respectively, of whole body impedance at 50 kHz, whereas they represented only 10.6 and 34.8% of total FFM, asdetermined by dual-energy X-ray absorptiometry. The trunk averaged10.0% of total impedance but represented 48.2% of FFM. For eachsegment, there was an excellent correlation between the specificimpedance index(length²/impedance) and FFM(r = 0.55, 0.62, and 0.64 for arm,trunk, and leg, respectively). The specific resistivity was in asimilar range for the limbs (159 ± 23 cm for the arm and 193 ± 39 cm for the leg at 50 kHz) but was higher for the trunk (457 ± 71 cm). This study shows the potential interest of segmental bodycomposition by bioelectrical impedance analysis and provides specificsegmental body composition equations for use in normal and overweightwomen.