Calculation of bioavailable and free testosterone in men: A comparison of 5 published algorithms

Background: Estimation of serum concentrations of free testosterone (FT) and bioavailable testosterone (bioT) by calculation is an inexpensive and uncomplicated method. We compared results obtained with 5 different algorithms. Methods: We used 5 different published algorithms [described by Sodergard et al. (bioT S and FT S), Vermeulen et al. (bioT V and FT V), Emadi-Konjin et al. (bioT E), Morris et al. (bioT M), and Ly et al. (FT L)] to estimate bioT and FT concentrations in samples obtained from 399 independently living men (ages 40-80 years) participating in a cross-sectional, single-center study. Results: Mean bioT was highest for bioT S (10.4 nmol/L) and lowest for bioT E (3.87 nmol/L). Mean FT was highest for FT S (0.41 nmol/L), followed by FT V (0.35 nmol/L), and FT L (0.29 nmol/L). For bioT concentrations, the Pearson correlation coefficient was highest for the association between bioT S and bioT V (r = 0.98) and lowest between bioT M and bioT E (r = 0.66). FT L was significantly associated with both FT S (r = 0.96) and FT V (r = 0.88). The Pearson correlation coefficient for the association between FT L and bioT M almost reached 1.0. Bland-Altman analysis showed large differences between the results of different algorithms. BioT M, bioT E, bioT V, and FT L were all significantly associated with sex hormone binding globulin (SHBG) concentrations. Conclusion: Algorithms to calculate FT and bioT must be revalidated in the local setting, otherwise over- or underestimation of FT and bioT concentrations can occur. Additionally, confounding of the results by SHBG concentrations may be introduced.

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