Portable Magnetic Particle Spectrometer (MPS) for Future Rapid and Wash-free Bioassays

TL;DR

The paper presents MagiCoil, a portable, cost-effective magnetic particle spectrometer device enabling rapid, wash-free, and user-friendly bioassays suitable for resource-limited settings, with high sensitivity and versatility.

Contribution

Introduction of MagiCoil, a novel portable MPS-based bioassay platform that simplifies operation and broadens accessibility for disease detection.

Findings

Detection limit of 64 nM for streptavidin

Device is fully automatic and smartphone-compatible

Versatile platform adaptable to various diseases

Abstract

Nowadays, there is an increasing demand for more accessible routine diagnostics for patients with respect to high accuracy, ease of use, and low cost. However, the quantitative and high accuracy bioassays in large hospitals and laboratories usually require trained technicians and equipment that is both bulky and expensive. In addition, the multi-step bioassays and long turnaround time could severely affect the disease surveillance and control especially in pandemics such as influenza and COVID-19. In view of this, a portable, quantitative bioassay device will be valuable in regions with scarce medical resources and help relieve burden on local healthcare systems. Herein, we introduce the MagiCoil diagnostic device, an inexpensive, portable, quantitative and rapid bioassay platform based on magnetic particle spectrometer (MPS) technique. MPS detects the dynamic magnetic responses of magnetic nanoparticles (MNPs) and uses the harmonics from oscillating MNPs as metrics for sensitive and quantitative bioassays. This device does not require trained technicians to operate and employs a fully automatic, one-step, wash-free assay with user friendly smartphone interface. Using a streptavidin-biotin binding system as a model, we show that the detection limit of the current portable device for streptavidin is 64 nM (equal to 5.12 pmole). In addition, this MPS technique is very versatile and allows for the detection of different diseases just by changing the surface modifications on MNPs.