Total body composition by dual-photon (153Gd) absorptiometry

Abstract

The lean-fat composition (%FAT_R) of soft tissue and the mineral mass of the skeleton were determined in vivo using dual-photon (¹⁵³Gd) absorptiometry (dose under 2 mrem). A rectilinear raster scan was made over the entire body in 18 subjects (14 female, 4 male). Single-photon absorptiometry (¹²⁵I) measured bone mineral content on the radius. Percentage fat (%FAT_D) was determined in the same subjects using body density (from underwater weighing with correction for residual lung volume). Lean body mass (LBM) was determined using both %FAT_R and %FAT_D. Percentage fat from absorptiometry and from underwater density were correlated (r = 0.87). The deviation of %FAT_D from %FAT_R was due to the amount of skeletal mineral as a percentage of the LBM (r = 0.90). Therefore, skeletal variability, even in normal subjects, where mineral ranges only from 4 to 8% of the LBM, essentially precludes use of body density as a composition indicator unless skeletal mass is measured. Anthropometry (fatfolds and weight) predicted %FAT_R and LBM at least as well as did underwater density. The predictive error of %FAT_R from fatfolds was 5% while the predictive error in predicting LBM from anthropometry was 2 to 3 kg (3%).