Patent ID: 6127130
Filing Date: 2000-10-03
Classification: G01N,Y10S,Y10T

Abstract:
A method for determining the concentration of a known target antigen and a known interferant in an unknown sample by using an antibody which reacts specifically with the target antigen and which does not react specifically with the interferant but wherein the interferant interferes with the reaction between the antibody and the target antigen, comprising:A. preparing calibrated solutions of the target antigen and the interferant which cover a matrix of the concentration of the target antigen versus the concentration of the interferant, wherein the matrix covers the ranges of concentrations that the unknown sample is likely to fall into;B. generating a 3-dimensional calibration curve for a competition immunoassay which shows the immunoassay readout for points on the matrix of the target antigen concentration versus the interferant concentration bya. using the antibody in a competition immunoassay on each of the calibrated solutions to obtain measured readouts for those solutions, wherein the competition immunoassay involves a reaction between the antibody and a labeled antigen competing with the reaction between the antibody and the target antigen, and wherein the interferant interferes with both reactions,b. using a computer program operating on the competition immunoassay readout values for the calibrated solutions to interpolate between the calibration points to produce interpolated points with estimated readout values, wherein the 3-dimensional calibration curve of the readout versus the target antigen concentration versus the interferant concentration is defined by the calibration points and the interpolated points;C. generating a 3-dimensional calibration curve for a non-competition immunoassay selected from the group consisting of inhibition immunoassays and sandwich immunoassays which shows the non-competition immunoassay readouts for points on the matrix of the target antigen concentration versus the interferant concentration bya. using the antibody in a non-competition immunoassay on each of the calibrate solutions to obtain measured readouts for those solutions,b. using a computer program operating on the non-competition immunoassay readout values for the calibrated solutions to interpolate between the calibrated points to produce interpolated points with estimated readout values, wherein the 3-dimensional calibration curve of the readout versus the target antigen concentration versus the interferant concentration for the non-competition immunoassay is defined by the calibration points and the interpolated points;D. performing the competition immunoassay on the unknown sample to obtain a competition immunoassay readout for the sample;E. finding the matrix points (target antigen concentration versus interferant concentration) on the 3-dimensional calibration curve for the competition immunoassay which have the same readout as the unknown sample and using the points to form a 2-dimensional curve of the target antigen concentration versus the interferant concentration for the competition readout value for the unknown sample;F. performing the non-competition immunoassay on the unknown sample to obtain a non-competition immunoassay readout for the sample;G. finding the matrix points (target antigen concentration versus interferant concentration) on the 3-dimensional calibration curve for the non-competition immunoassay which have the same read out as the unknown sample and using the points to form a 2-dimensional curve of the target antigen concentration versus the interferant concentration for the non-competition readout value for the unknown sample; andH. plotting the 2-dimensional competition immunoassay curve and the 2-dimensional non-competition curve on the same 2-dimensional grid of the target antigen concentration versus the interferant concentration and determining the target antigen concentration and the interferant concentration corresponding to the point at which the two curves intersect which are the target antigen concentration and the interferant concentration of the unknown sample.