This research aims to develop a portable biosensor device for quickly detecting vWFA2, a biomarker for inflammatory conditions. This sensor could dramatically change detection methods and lead us to improve the sensitivity of our tests to overcome the limitations of conventional detection methods. Our label-free biomolecular assay is constructed on an Au-ZnO electrode surface and uses electrochemical impedance spectroscopy (EIS) to measure the capacitive change in impedance, revealing the binding effects of the target vWFA2, to the capture probe. Our developed biosensor platform exhibits greater sensitivity and specificity, covering a wide dynamic range of 750-24,000 pg/mL and showing a strong correlation with inflammatory conditions. This sensor exhibited a greater accuracy ranging from 86-110% for the known spiked concentrations in nondiluted or modified plasma samples. This electrochemical sensor has the potential to advance point-of-care diagnostic methods due to its high sensitivity and rapid response time. The vision behind this research is to develop an electrochemical sensor that can rapidly and accurately detect disease states, thus creating a pivotal prognostic tool in inflammatory state treatment and ultimately mitigating severe mortality and morbidity.
© 2024 The Authors. Published by American Chemical Society.