Impact of bone mineral estimates on percent fat estimates from a four-component model

Purpose: The primary purpose of this study was to determine the impact of b one mineral content (BMC) from QDR 1000/W and DPX-L dual-energy x-ray absor ptiometers (DXA(QDR) and DXA(DPX-L)) on percent fat (%fat) estimates from a four-component model. A secondary purpose was to test the accuracy of %fat estimates from DXA(QDR) and DXA(DPX-L), using %fat estimates from a four-c omponent model as the criterion. Methods: Percent fat, fat mass, and fat-fr ee mass (FFM) were determined from DXA(QDR) and DXA(DPX-L), and from a four -component model based on measures of body density from underwater weighing , body water from deuterium dilution, and BMC from DXA(QDR) (4C(QDR)) or DX A(DPX-L) (4C(DPX-L)) in young men (N = 14) and women (N = 10). Results: BMC was significantly lower using DXA(QDR) compared with DXA(DPX-L), (similar to 11%), resulting in slightly lower estimates of %fat and fat mass and sli ghtly higher estimates of FFM from 4C(QDR) than 4C(DPX-L). Although estimat es of %fat, fat mass, and FFM from DXA(QDR) and DXA(DPX-L) were not differe nt than those from a four-component model, there was considerable individua l variability between methods. Furthermore, %fat from DXA(QDR) was lower th an %fat from 4C(DPX-L). Conclusions: We conclude that using BMC from differ ent DXA instruments has a minimal impact on %fat, fat mass, and FFM estimat es from a four-component model. The large variability in %fat estimates bet ween the two DXA instruments and those from a four-component model does not support DXA as a criterion method of body composition. Further studies inv olving larger sample sizes and specific population groups are needed to ass ess the validity of body composition measurements from DXA.