![]() ![]() The ideal assumption is that the best-fit linear curve will be a line that passes as close as possible to all data points from the standard curve. ![]() The aim is to find values for the slope (m) and y-intercept (b) that minimize the absolute distance from the data point to the curve, also known as the residual. The concentration is generally represented as x, the assay readout as y, with m referring to the slope and b referring to the y-intercept where x = 0. the assay readout (OD for ELISA or MFI for LEGENDplex™) and using that equation we all learned in basic algebra: y = mx + b This generally means plotting the concentration vs. The most straightforward way to analyze your immunoassay data is to use a linear regression curve fit. Linear Regression and Sum of Squared Residuals However, they are important for understanding what curve to choose for your analysis. Thankfully, you can use our free LEGENDplex™ Data Analysis Software Suite, and the analysis will be done for you and you do not need to use all of the formulas discussed later in the blog. The concentration of the analyte in the sample can then be calculated using the OD or MFI.īefore samples can be analyzed, it is important to choose the best curve fit model to achieve the most accurate and reliable results. optical density (OD) for ELISA and mean fluorescence intensity (MFI) for LEGENDplex™. Performing a quantitative immunoassay asks one to plot an x-y plot that shows the relationship between this standard (analyte of interest) with the readout of the assay, e.g. The production of a standard curve requires the use of known concentrations of the analyte being assayed. In order to determine the concentration of an analyte within a sample, one must run a standard, or calibration, curve. These samples include serum, plasma, cell culture supernatants, and other biological matrices. Traditional sandwich ELISAs and bead-based multiplex immunoassays, such as LEGENDplex™, are frequently used to detect and quantify specific analytes within a biological sample. ![]()
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