Prediction of underwater residual lung volume in healthy men and women

Regression equations are commonly used to predict residual lung volume (RV) during underwater weighing when measurement is not practical. However, the equations currently available were derived from on-land measures of RV and may account for changes in lung capacity during submersion, thus leading to inaccuracies in assessment of percent body fat (%BF). The purpose of this study was to 1) develop a new equation (RVNEW) for the prediction of underwater RV, 2) cross-validate RVNEW and compare it to existing RV equations, and 3) compare the effects of RVNEW and existing equations on underwater %BF. 175 healthy adults were recruited to complete simultaneous hydrostatic weighing and RV measurements. The sample was randomly divided into development (n=131) and cross-validation (n=44) cohorts. Regression analysis in the development cohort resulted in the following equation: underwater RV = -3.419 + 0.026×Height (cm) + 0.019×Age (y) (p<0.001; R2=0.53; SEE=0.26). In the cross-validation cohort, Bland-Altman analysis revealed that the new equation provided the best overall agreement with underwater RV (bias±1.96 SD, 0.07±0.5 L), while existing equations produced significantly different values from measured RV and wider limits of agreement. When used to calculate %BF, the new RV equation produced the strongest agreement with underwater %BF (-0.5±3.8%), although all equations produced strong correlations (all r>0.95) and limits of agreement ≤4.7%. The results of this study suggest that RVNEW may be more appropriate for RV estimation during hydrostatic weighing than existing equations. However, its applicability to populations outside the current study need to be examined.

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