Sensitivity and reproducibility improvements in a human plasma immunoassay with removal of clotting factors

Abstract

Interferences in human plasma immunoassay are severe challenge that affects the sensitivity and reproducibility of the assay. The clotting factor fibrinogen is a negatively charged protein and is one of the most common sources of interference in immunoassays, and its removal increases the sensitivity and reproducibility. Here, we present a highly sensitive and reproducible method for the detection of prostate specific antigen (PSA) in human plasma immunoassays. Protamine sulfate, a highly positively charged protein, was used to precipitate fibrinogen via ionic interaction to improve the sensitivity and reproducibility of human plasma immunoassay. In a sandwich ELISA for PSA using plasma and prolamine-treated plasma samples, the limit of detection was improved from 413 pg/mL in plasma to 235 pg/mL in prolamine-treated plasma samples, and the coefficient of variation known as a measure of reproducibility was significantly lowered by prolamine treatment. The use of prolamine sulfate in human plasma immunoassays for detection of PSA using quartz crystal microbalance (QCM) biosensors resulted in increased sensitivity and reproducibility by about 2-fold and 3-fold, respectively, relative to when not using prolamine sulfate. Based on these results, prolamine sulfate was the best choice to increase the sensitivity and reproducibility in immunoassays using plasma samples.