A rapid and facile immunoassay for C-reactive protein using PDMS-based digital magnetofluidics

Background: C-reactive protein has been reported as a biomarker of inflammation caused by acute injury, infection or tissue damage and also a prediction marker of cardiovascular diseases. Commonly, the gold standard for the detection of CRP is enzyme-linked immunosorbent assays (ELISAs). Normally, traditional immunoassays in multiwell plates typically suffer from prolonged assay time due to slow mass transport controlled by diffusion. Herein, a PDMS based magnetofluidic approach has been applied for a rapid and facile immunoassay using a sandwich enzyme-linked immunosorbent assay (ELISA) for the analysis of CRP. Results: Due to the superhydrophobic PDMS, droplets of reagent and sample solutions were obtained when pipetting all solutions onto the PDMS substrate. These droplets were individually controlled by an external magnet to perform the assays. Magnetic beads immobilized with a capture antibody were not only used for immunomagnetic separation (IMS) of the captured CRP from the sample matrix, but also used as a carrier for droplet movement on the magnetofluidic device, expediting the immunoassay procedure, especially washing steps. The immunoassay of CRP was successfully performed within 1 h with a limit of detection of 0.015 mg L-1 in the concentration range of 0.1-10 mg L-1.-1 . The recovery percentages of CRP spiked in human serum were found in the range of 90-114 % with %RSD of less than 5 %, indicating acceptable accuracy and precision. Significance: By individually controlling the droplet movement using an external magnet, all steps of immunoassays were simply and rapidly performed. In addition, the microfluidic format allows for small volumes of reagents and samples and rapid assay kinetics. Therefore, the proposed magnetofluidic approach has shown its potential of becoming a rapid, facile and cost-effective method to perform traditional immunoassays in a variety of applications. In addition, the proposed approach is also particularly well-suited for analyses/reactions with multiple steps.