Jyong-Huei Lee scite author profile

Jyong-Huei Lee

3Publications

47Citation Statements Received

271Citation Statements Given

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194

271

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National Taiwan University

Publications

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Digital Microfluidics for Manipulation and Analysis of a Single Cell

Chen

Lee

et al. 2015

IJMS

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The basic structural and functional unit of a living organism is a single cell. To understand the variability and to improve the biomedical requirement of a single cell, its analysis has become a key technique in biological and biomedical research. With a physical boundary of microchannels and microstructures, single cells are efficiently captured and analyzed, whereas electric forces sort and position single cells. Various microfluidic techniques have been exploited to manipulate single cells through hydrodynamic and electric forces. Digital microfluidics (DMF), the manipulation of individual droplets holding minute reagents and cells of interest by electric forces, has received more attention recently. Because of ease of fabrication, compactness and prospective automation, DMF has become a powerful approach for biological application. We review recent developments of various microfluidic chips for analysis of a single cell and for efficient genetic screening. In addition, perspectives to develop analysis of single cells based on DMF and emerging functionality with high throughput are discussed.

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Liver microsystems in vitro for drug response

Lee

Fan

2019

J Biomed Sci

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Engineering approaches were adopted for liver microsystems to recapitulate cell arrangements and culture microenvironments in vivo for sensitive, high-throughput and biomimetic drug screening. This review introduces liver microsystems in vitro for drug hepatotoxicity, drug-drug interactions, metabolic function and enzyme induction, based on cell micropatterning, hydrogel biofabrication and microfluidic perfusion. The engineered microsystems provide varied microenvironments for cell culture that feature cell coculture with non-parenchymal cells, in a heterogeneous extracellular matrix and under controllable perfusion. The engineering methods described include cell micropatterning with soft lithography and dielectrophoresis, hydrogel biofabrication with photolithography, micromolding and 3D bioprinting, and microfluidic perfusion with endothelial-like structures and gradient generators. We discuss the major challenges and trends of liver microsystems to study drug response in vitro.

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Cell coculture within electrically patterned cells and hydrogel structures

Lee

Fan

2017

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Jyong-Huei Lee

Digital Microfluidics for Manipulation and Analysis of a Single Cell

Liver microsystems in vitro for drug response

Cell coculture within electrically patterned cells and hydrogel structures

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