madman
Super Moderator
Accurate measurement of low levels of testosterone is critical for diagnosis and treatment of androgen disorders. The very low concentrations of testosterone in children, females, and males with androgen suppression therapies necessitate the use of mass spectrometry-based methods. We aimed to develop a liquid chromatography with tandem mass spectrometry method with simplified sample preparation and online solid-phase extraction cleanup to achieve enhanced precision, accuracy, robustness, and cost-effectiveness. The assay was linear from 10 to 20 000 pg/mL with an analytical recovery of 93–104%. The total coefficient of variation was 2.5, 1.9, and 1.7% at concentration levels of 348, 5432, and 10 848 pg/mL, respectively. No significant carryover was observed from samples with concentrations up to 20 000 pg/mL. No significant interference was observed from androstenedione, dehydroepiandrosterone, epi-testosterone, and estriol. Comparison with CDC Hormone Standardization program (HoSt) reference samples with defined values (n = 40) showed a Deming regression slope of 0.963, intercept of 28.06 pg/mL, standard error of estimate was 66.9, a correlation coefficient of 0.9996, and a mean bias of −0.6%. The method met the accuracy criteria by the CDC HoSt program. In addition, we achieved >12 000 injections on a single analytical column without significant performance deterioration due to the specific online solid-phase extraction settings.
5 CONCLUDING REMARKS
In conclusion, we developed and validated a novel LC– MS/MS workflow with online SPE for total T quantification in serum. The method offers high precision, sensitivity, accuracy, robustness, and cost-effectiveness via simplification of sample preparation and online extraction.
5 CONCLUDING REMARKS
In conclusion, we developed and validated a novel LC– MS/MS workflow with online SPE for total T quantification in serum. The method offers high precision, sensitivity, accuracy, robustness, and cost-effectiveness via simplification of sample preparation and online extraction.
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