Smartphone Enabled Point-of-Care Detection of Serum Biomarkers.

Abstract

Sandwich immunoassays are the gold standard for detection of protein analytes. Here, we describe an ultrasensitive point-of-care sandwich immunoassay platform for the detection of biomarkers directly from blood or serum using a custom-built smartphone detector. Testing undiluted blood or serum is challenging due to the complexity of the matrix. Proteins nonspecifically adsorb to and cells often adhere to the assay surface, which can drastically impact the analytical sensitivity of the assay. To address this problem, our assay is built upon a "nonfouling" polymer brush "grafted from" a glass slide, which eliminates nearly all nonspecific binding and therefore increases the signal-to-noise ratio and greatly improves the analytical performance of the test. The two components required to perform a sandwich immunoassay are inkjet-printed directly onto the surface: (1) "stable" capture antibodies that remain entrapped in the brush even after exposure to a liquid sample and (2) fluorescently labeled "soluble" detection antibodies that dissolve upon exposure to a liquid sample. The polymer brush provides hydration to the antibodies, allowing them to remain stable and active over prolonged periods of time. When a liquid sample containing a biomarker of interest is dispensed onto the chip, the detection antibodies dissolve and diffuse to the stable capture spots forming a complex that sandwiches the analyte and that has a fluorescence intensity proportional to the concentration of the biomarker in solution, which can be measured using a custom-built smartphone detector. As multiple capture antibodies can be printed as discrete capture spots, the assay can be easily multiplexed without the need for multiple fluorophores. This chip and detector platform can be utilized for the point-of-care detection of low-abundance biomarkers directly from blood or serum in low-resource settings.