Analytical Platform with Selectable Assay Parameters Based on Three Functions of Magnetic Nanoparticles: Demonstration of Highly Sensitive Rapid Quantitation of Staphylococcal Enterotoxin B in Food.

Abstract

Many immunoassay platforms require time- and labor-consuming tuning of parameters for operation in complex mediums (food, whole blood, etc.), but no universal method has been proposed to accelerate that "trial-and-error" stage. We present a lateral flow platform, applicable to the multitude of assays comprising immunomagnetic separation, as a tool to establish quantitative relationship between analytical characteristics, sample volume, and magnetic enrichment time. The tool permits a user, prior to the analysis, to knowingly select from a "menu" of parameters' values a particular combination that better suits a purpose. Besides, the platform showed quantitative detection in various food of staphylococcal enterotoxin B (SEB) as a model up to 6 pg/mL at the dynamic range of 3.5 orders with minimal sample pretreatment. Such performance is achieved due to using the same magnetic nanoparticles through all stages of analysis in contrast to the traditional approaches that engage these agents either for separation or as labels. The unique combination of broad benefits of magnetic particles, e.g., rapid enrichment and purification of analyte, reduction of matrix effect, extremely high signal-to-noise ratio, etc., are joined in one platform due to the method of their registration by nonlinear magnetization. The platform also retains the advantages of lateral flow principle such as extraordinary simplicity, on-site operation, affordable consumables, and permits samples of virtually any volume. Although tested here for SEB detection, the platform can be extended to other analytes for point-of-care in vitro diagnostics, food analysis, biosafety, environmental applications, etc.