Background: Deuterium oxide (D_2O) dilution method is the golden standard of measuring the total body water (TBW) to deduce the percent body fat (PBF) in the 2-compartment model of body composition. Clinically, BIA (bioelectrical impedance analysis) is the most common way for measuring PBF. However, most BIA devices come from foreign, especially Western, manufacturers, and there has been no study examining the consistency between the PBF obtained by a BIA device and the one by D_2O dilution in Taiwanese. Methods: A total of 358 Taiwanese outpatients (male/female=137/221, mean age=34.1±9.9 years old, and mean body mass index=30.9±9.6 kg/m^2) visiting National Cheng Kung University Hospital were enrolled. After overnight fasting and bladder emptying, the subjects had their PBF values measured by D_2O dilution and four frequently used BIA devices. Statistical and data analyses were conducted using SPSS 17^(th) version. Results: For the 358 subjects, the mean PBF by D_2O dilution (D_2O-PBF) was 33.5±10.6%, significantly different from the one measured by the four BIA devices (BIA-PBF). The results of Bland-Altman analysis indicated an overall acceptable consistency between BIA-PBF and D_2O-PBF, with the only exception occurring in the case of Tanita TBF-410 that reported a slight overestimation when the average PBF of the subjects exceeded 50%. In terms of multiple linear regression, when D_2O-PBF was set as the dependent variable and BAI-PBE, 1/BMI, gender, age, and waist circumference as the independent variables, the adjusted coefficient of determination (R^2) fell in the range of 0.430-0.755 and remained consistent even after hip circumference or waist-to-hip ratio was added into the regression model. Conclusion: While a high degree of consistency between D_2O-PBF and BIA-PBF is verified in the study, there are evident systematic errors that should be corrected by the linear regression model appropriately.