Magnetofluidic-Assisted Portable Automated Microfluidic Devices for Protein Detection

Abstract

To facilitate on-site detection by nonspecialists, there is a demand for the development of portable “sample-to-answer” devices capable of executing all procedures in an automated or easy-to-operate manner. Here, we developed an automated detection device that integrated a magnetofluidic manipulation system and a signal acquisition system. Both systems were controllable via a smartphone. In the device, the mixing of solutions and magnetic beads in the static chamber was enhanced by steel bead agitation, which improved the reaction efficiency. We demonstrate the performance of the device using myoglobin detection as an example. During the detection process, the plasma was separated from the whole blood sample using a homemade mini-centrifuge, and subsequently, the plasma, magnetic beads, and reagents were added to a magnetofluidic chip with multiple chambers. After the chip was loaded, the device was initiated with a smartphone App via Bluetooth. Then, the magnetic beads were shuttled through different chambers of the chip and multiple steps were completed automatically: first, the targets were separated and enriched using antibody-modified magnetic beads, followed by washing, binding with aptamer-functionalized G-quadruplex, signal amplifying (optional), and chromogenic reaction. Finally, the images of colored solutions were captured and processed by a smartphone to obtain the concentrations of myoglobin. The detection limits depended on the mode of signal conversion, which were 0.1 or 2.7 nM (with or without signal amplifying). With its simple operation, compact design, low cost, and ease of scalability, this automated detection device holds potential applications in human health, food safety, environmental monitoring, etc.