Author:
He Jiacheng,Peng Ruonan,Yuqing Henry,Karim Rafi,Chen Juhong,Lu Guoyu,Du Ke
Abstract
ABSTRACTThe transport, distribution, and mixing of microfluidics often require additional instruments, such as pumps and valves, which are not feasible when operated in point-of-care (POC) settings. Here, we present a simple microfluidic pathogen detection system known as Rotation-Chip that transfers the reagents between wells by manually rotating two concentric layers without using external instruments. The Rotation-Chip is fabricated by a simple computer numerical control (CNC) machining process and is capable of carrying out 60 multiplexed reactions with a simple 30-degree or 60-degree rotation. Leveraging superhydrophobic coating, a high fluid transport efficiency of 92.78% is achieved without observable leaking. Integrated with an intracellular fluorescent assay, an on-chip detection limit of 1.8×106CFU/mL is achieved for ampicillin-resistantEscherichia coli (E. coli), which is similar to our off-chip results. We also develop a computer vision method to automatically distinguish positive and negative samples on the chip, showing 100% accuracy. Our Rotation-Chip is simple, low-cost, high-throughput, and can display test results with a single chip image, ideal for various multiplexing POC applications in resource-limited settings.
Publisher
Cold Spring Harbor Laboratory