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BACKGROUND: Prostate-specific antigen (PSA) is the most widely used serum biomarker to differentiate between malignant and benign prostate disease. Assays that measure PSA can be biased and/or nonequimolar and hence report significantly different PSA values for samples with the same nominal amount. This report investigates the effects of biased and nonequimolar assays on the decision to recommend a patient for a prostate biopsy based on age-specific PSA values. METHODS: A simulation model, calibrated to the distribution of PSA values in the United Kingdom, was developed to estimate the effects of bias, nonequimolarity, and analytical imprecision in terms of the rates of men who are recommended to have a biopsy on the basis of their assay-reported PSA values when their true PSA values are below the threshold (false positives) or vice versa (false negatives). RESULTS: False recommendation rates for a calibrated equimolar assay are 0.5-0.9% for analytical imprecision between 5% and 10%. Positive bias leads to significant increases in false positives and significant decreases in false negatives, whereas negative bias has the opposite effect. False-positive rates for nonequimolar assays increase from 0.5% to 13% in the worst-case scenario, whereas false-negative rates are almost always 0%. CONCLUSIONS: Biased and nonequimolar assays can have major detrimental effects on both false-negative and false-positive rates for recommending biopsy. PSA assays should therefore be calibrated to the International Standards and be unbiased and equimolar in response to minimize the likelihood of incorrect clinical decisions, which are potentially detrimental for both patient and healthcare provider.

Original publication




Journal article


Clin Chem

Publication Date





1012 - 1016


Aged, Aged, 80 and over, Bias, Biopsy, Clinical Laboratory Techniques, Computer Simulation, False Negative Reactions, False Positive Reactions, Humans, Male, Middle Aged, Prostate-Specific Antigen, Prostatic Hyperplasia, Prostatic Neoplasms, Sensitivity and Specificity, United Kingdom