Comparison of the effectiveness of 2 dual-energy X-ray absorptiometers with that of total body water and computed tomography in assessing changes in body composition during weight change

Abstract

Background: Little information is available on the assessment of changes in body composition as a function of weight change with the use of the fan beam of dual-energy X-ray absorptiometry (DXA). Objective: The objective was to determine the accuracy of the fan beam of the QDR 4500A densitometer and the pencil beam of the QDR 2000 densitometer in estimating changes in whole-body lean soft tissue mass (LSTM_DXA) and fat mass (FM) with weight change. Design: Thirty-seven subjects who lost 5.7 ± 4.5 kg were measured before and after weight change. Using total body water and computed tomography (CT) of the midthigh, we compared changes in FFM_TBW and LSTM_CT with changes in LSTM_DXA. Results: Overall, compared with TBW, the fan beam gave a larger estimate of change (x̄ ± SD) in LSTM (fan beam − TBW: −0.7 ± 1.6 kg) than did the pencil beam (pencil beam − TBW: −0.1 ± 1.6 kg). When the change in LSTM obtained with the fan beam and pencil beam was regressed against the change in FFM_TBW, the slope of the line for the fan beam was 0.97 (r² = 0.61) and that for the pencil beam was 0.86 (r² = 0.61). Regression analysis showed that the results between the 2 units were not interchangeable. For the midthigh region, the change in LSTM_CT was moderately correlated with the change in LSTM_DXA with the fan beam and pencil beam. Conclusions: The measurement of change in LSTM with the fan and pencil beams provides the same relation to changes in FFM assessed by TBW, but the 2 systems are not interchangeable.