Compensation for non-specific signals in quantitative immunoassays

Abstract

Methods for quantitatively measuring the amount of an analyte of interest in a fluid sample are disclosed. The methods involve providing a membrane having an application point, a detection zone, and a contact region, where the contact region is between the application point and the detection zone, and has test particles and internal control particles imbedded within it; contacting the application point with the fluid sample; maintaining the membrane under conditions sufficient to allow fluid to transport analyte by capillary action to the contact region, where the analyte binds to the test particles; further maintaining the membrane under conditions sufficient to allow fluid to transport analyte-bound test particles and internal control particles to the detection zone, where they interact with a detection reagent; and detecting the amount of test particles and the amount of internal control particles in the detection zone. The amount of analyte in the fluid sample is related to a corrected test particle amount, which can be determined, for example, as the difference between the amount of test particles and the amount of internal control particles in the detection zone. Alternatively, the fluid sample can be contacted with the detection zone of the apparatus, and the test particles are mobilized by addition of fluid to the application point. Other methods involve providing a solid phase reactant for an enzyme-linked immunosorbent assay, and contacting the solid phase reactant with a solution containing an initial detection antibody and an internal control antibody. The amount of analyte in the fluid sample is related to a corrected amount of initial detection antibody, which can be determined, for example, as the difference between the amount of initial detection antibody and the amount of internal control antibody on the solid-phase reactant.