Chip–NMR biosensor for detection and molecular analysis of cells

Abstract

A major challenge in biomedicine is the rapid and accurate measurement of biomarkers in biological samples. Here, Lee et al. describe a chip-based NMR diagnostic platform that can perform sensitive and selective measurements on small volumes of unprocessed biological samples. This miniaturized biosensing system is high throughput, low cost and portable, and its utility is shown in a number of biomedical applications. Rapid and accurate measurement of biomarkers in tissue and fluid samples is a major challenge in medicine. Here we report the development of a new, miniaturized diagnostic magnetic resonance (DMR) system for multiplexed, quantitative and rapid analysis. By using magnetic particles as a proximity sensor to amplify molecular interactions, the handheld DMR system can perform measurements on unprocessed biological samples. We show the capability of the DMR system by using it to detect bacteria with high sensitivity, identify small numbers of cells and analyze them on a molecular level in real time, and measure a series of protein biomarkers in parallel. The DMR technology shows promise as a robust and portable diagnostic device.