Discordance between testosterone measurement methods in castrated prostate cancer patients

Discordance between testosterone measurement methods in castrated prostate cancer patients

Failure to suppress testosterone below 0.7 nM in castrated prostate cancer patients is associated with poor clinical outcomes. Testosterone levels in castrated patients are therefore routinely measured. Although mass spectrometry is the gold standard used to measure testosterone, most hospitals use...

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Bibliographic Details
Published in:Endocrine Connections Vol. 8; no. 2; pp. 132 - 140
Main Authors: Rouleau, Mélanie, Lemire, Francis, Déry, Michel, Thériault, Benoît, Dubois, Gabriel, Fradet, Yves, Toren, Paul, Guillemette, Chantal, Lacombe, Louis, Klotz, Laurence, Saad, Fred, Guérette, Dominique, Pouliot, Frédéric
Format: Journal Article
Language:English
Published: England Bioscientifica Ltd 01-02-2019
Bioscientifica
Subjects:
androgen deprivation therapy
immunoassay
mass spectrometry
prostate cancer
testosterone
androgen deprivation therapy
mass spectrometry
prostate cancer
testosterone
immunoassay
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Summary:Failure to suppress testosterone below 0.7 nM in castrated prostate cancer patients is associated with poor clinical outcomes. Testosterone levels in castrated patients are therefore routinely measured. Although mass spectrometry is the gold standard used to measure testosterone, most hospitals use an immunoassay method. In this study, we sought to evaluate the accuracy of an immunoassay method to measure castrate testosterone levels, with mass spectrometry as the reference standard. We retrospectively evaluated a cohort of 435 serum samples retrieved from castrated prostate cancer patients from April to September 2017. No follow-up of clinical outcomes was performed. Serum testosterone levels were measured in the same sample using liquid chromatography coupled with tandem mass spectrometry and electrochemiluminescent immunoassay methods. The mean testosterone levels were significantly higher with immunoassay than with mass spectrometry (0.672 ± 0.359 vs 0.461 ± 0.541 nM; P < 0.0001). Half of the samples with testosterone ≥0.7 nM assessed by immunoassay were measured <0.7 nM using mass spectrometry. However, we observed that only 2.95% of the samples with testosterone <0.7 nM measured by immunoassay were quantified ≥0.7 nM using mass spectrometry. The percentage of serum samples experiencing testosterone breakthrough at >0.7 nM was significantly higher with immunoassay (22.1%) than with mass spectrometry (13.1%; P < 0.0001). Quantitative measurement of serum testosterone levels >0.7 nM by immunoassay can result in an inaccurately identified castration status. Suboptimal testosterone levels in castrated patients should be confirmed by either mass spectrometry or an immunoassay method validated at low testosterone levels and interpreted with caution before any changes are made to treatment management.
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M Rouleau and F Lemire contributed equally to this work
ISSN:2049-3614
2049-3614
DOI:10.1530/EC-18-0476