Po-Huai Shih scite author profile

Po-Huai Shih

2Publications

7Citation Statements Received

49Citation Statements Given

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National Yang Ming Chiao Tung University

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AMPFLUID: Aggregation Magnified Post-Assay Fluorescence for Ultrasensitive Immunodetection on Digital Microfluidics

et al. 2015

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This paper describes the effect of bead aggregation in an immunoassay system and the aggregation-magnified post-assay fluorescence for ultrasensitive immunodetection on digital microfluidics.ABSTRACT | Several strategies are currently employed to enhance the detection limit of bead-based assays, but all these approaches improve the sensitivity by varying the assay procedures chemically or biologically. In previous digital microfluidic setups for bead-based immunoassay, the magnetic beads were suspended for detection. We investigated the effect of bead aggregation in such an immunoassay system and propose the aggregation magnified post-assay fluorescence for ultrasensitive immunodetection on digital microfluidics (AMPFLUID). The detection signal and sensitivity are further enhanced even at the post-assay stage without altering the original assay protocol on employing magnetically triggered post-assay aggregation of beads in a digital microfluidic setup followed by processing of the fluorescent signal. This method is shown to enhance the fluorescent signal with increased consistency and sensitivity after appropriate chargecoupled device (CCD) calibration. This method of on-chip detection allows the fulfilment of consumption of a volume at the nanoliter level and a limit of detection in the range picogram/mL. In our sTNF-RI model immunoassay, only 2.5 nL of sample is required; a detection limit 15 pg/mL is achieved.The decreased uncertainty of the measure is indicated by the error bars and coefficient of variation.

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Signal enhancement by particle concentration using dielectrophoresis in an electrowetting-driven droplet

Chuo

Shih

Hsu

et al. 2012

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Po-Huai Shih

AMPFLUID: Aggregation Magnified Post-Assay Fluorescence for Ultrasensitive Immunodetection on Digital Microfluidics

Signal enhancement by particle concentration using dielectrophoresis in an electrowetting-driven droplet

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