Abstract
Background: Recently, measurement of very low concentrations of C-reactive protein (CRP) has gained popularity as a potential new means for predicting the risk of future cardiac complications. In this study, we demonstrate the feasibility of a kinetic, one-step microparticle assay for quantitative determination of extremely low and high CRP concentrations in the limited timeframe typical for point-of-care testing.
Methods: A noncompetitive, kinetic CRP immunoassay was developed that uses individual, porous microparticles as the solid phase. The microparticles were covalently coated with a monoclonal capture antibody, and the monoclonal detection antibody was labeled with europium. The one-step binding reaction was stopped by washing after 2 min of incubation, and the fluorescence signal of individual particles was measured.
Results: The analytical detection limit (mean of zero calibrator + 3 SD) was 0.00016 mg/L CRP. Clinical samples were diluted 400-fold before assay to cover the CRP concentration range of 0.064–1200 mg/L. The assay correlated well with the Dade Behring N High Sensitivity CRP assay (for 0–10 mg/L, r = 0.969, Sy|x = 0.68, n = 54; for 0–350 mg/L, r = 0.969, Sy|x = 11.7, n = 100). The within- and between-run CVs based on calculated concentrations were, respectively, 9–16% and 14% at 0.11 mg/L, 4.5–12% and 8.2% at 4.2 mg/L, and 3.5–6.3% and 4.4% at 105 mg/L, with a CV <15% at 0.2 mg/L and above.
Conclusions: Use of the kinetic microparticle approach combined with time-resolved fluorometry allows ultrasensitive quantification of CRP in whole blood in 2 min with a linear assay range spanning more than four orders of magnitude.
Development of a Point-of-Care System Based on White Light Reflectance Spectroscopy: Application in CRP Determination