Junsong Zheng

TL;DR: The design of an ultrasensitive and specific electrochemical biosensor for DNA methylation detection under clinical circumstances and could meet the need for cancer diagnosis is designed.

TL;DR: A sensitive and efficient electrochemical immunosensor was designed for amperometric detection of heat-killed Escherichia coli O157:H7 and might speed up disease diagnosis, treatment and prevention with pathogen.

TL;DR: Progress in the design and evaluation of microfluidic in vitro BBB models are summarized, including advances in chip materials, porous membranes, the use of endothelial cells, the importance of shear stress, the detection specific markers to monitor tight junction formation and integrity, measurements of TEER and permeability.

TL;DR: A novel sensitive electrochemical DNA biosensor was developed for amperometric detection of Escherichia coli O157:H7 that could be well accepted for early clinical detection and might speed up disease diagnosis, treatment and prevention with pathogen.

TL;DR: A surface plasmon resonance (SPR) DNA biosensor array based on target-primed rolling circle amplification (RCA) for isothermal and rapid detection of two pathogenic mycobacteria for clinical pathogen detection holds great promise in ultrasensitive bioassay in the future.