Peptide modified paper based impedimetric immunoassay with nanocomposite electrodes as a point-of-care testing of Alpha-fetoprotein in human serum

Abstract

Treatment for cancer depends on the type of cancer, and the stage or its development, and thus the need for point-of-care technology that can allow rapid and precise detection of biomarkers is increasing. Here, we present a simple on chip electrical detection of Alpha-fetoprotein (AFP). We rely on using a novel peptide modified plastic-paper microfluidic chips to perform efficient and specific impedimetric detection of AFP in human serum. The chips are prepared from a lower sheet of plastic and upper layer of cellulose chromatography paper modified with silver-20 wt% graphene printed electrodes. Diphenylalanine (FF) was proposed to involve in detection zone of the fabricated microchips in order to improve the sensing performance and the stability of immobilized antibodies according to amine-aldehyde reaction. The target protein is captured on the surface of microchips using specific monoclonal antibodies and the electrical response of the chip is monitored in the presence and absence of different concentrations of AFP. The influence of several parameters including the material types for screen printing of electrodes, FF concentrations, solvent and pH of FF solution on electrical response and cellulose fibers morphology was explored. The impedance measurements of AFP on the fabricated microchip in the optimized parameters exhibited a detection limit of 1 and 10 ng ml−1 in PBS and plasma, respectively. This platform developed here can be adopted to develop systems for rapid detection of biomarkers using portable electric devices.