Gwo-Bin Lee

TL;DR: A new, nitrocellulose-based microfluidic system featuring AB-specific aptamers capable of automating the bacterial detection process via the activity of microfluids composed of magnetic-composite membranes is developed, which may hold great promise for point-of-care diagnostics.

TL;DR: In this paper, a new microfluidic chip that generates micro-scale emulsion droplets for gene delivery applications was developed, which used a new design with a pneumatic membrane chamber integrated into a T-junction microchannel.

TL;DR: An integrated microfluidic system capable of automating AST for 1-2 antibiotics against clinical bacterial pathogens was developed herein and personalized medicine for treatment of bacterial infections may therefore be realized using this IMS.

TL;DR: Experimental results showed that different subtypes of influenza viruses were diagnosed by using multiplex RT-PCR process and automatically completed within 110 min in the developed microfluidic system.

TL;DR: Three PCR-based assays for determining presence of H. pylori infection and two DNA single-point mutation assays aimed at determining whether the infected strains were resistant to quinolone can be performed simultaneously on a single chip, suggesting that this microfluidic system could be a promising tool for rapid diagnosis of the presence of antibiotic-resistant H.pylori strains.