Analysis of intracellular reducing levels in human hepatocytes on three‐dimensional focusing microchip |
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| Authors: | Chunxiu Xu Longfei Cai |
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| Affiliation: | Department of Chemistry, Hanshan Normal University, Chaozhou, People's Republic of China |
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| Abstract: | A novel three‐dimensional hydrodynamic focusing microfluidic device integrated with high‐throughput cell sampling and detection of intracellular contents is presented. It has a pivotal role in maintaining the reducing environment in cells. Intracellular reducing species such as vitamin C and glutathione in normal and tumor cells were labeled by a newly synthesized 2,2,6,6‐tetramethyl‐piperidine‐1‐oxyl‐based fluorescent probe. Hepatocytes are adherent cells, which are prone to attaching to the channel surface. To avoid the attachment of cells on the channel surface, a single channel microchip with three sheath‐flow channels located on both sides of and below the sampling channel was developed. Hydrostatic pressure generated by emptying the sample waste reservoir was used as driving force of fluid on the microchip. Owing to the difference between the liquid levels of the reservoirs, the labeled cells were three‐dimensional hydrodynamically focused and transported from the sample reservoir to the sample waste reservoir. Hydrostatic pressure takes advantage of its ease of generation on a microfluidic chip without any external pressure pump, which drives three sheath‐flow streams to constrain a sample flow stream into a narrow stream to avoid blockage of the sampling channel by adhered cells. The intracellular reducing levels of HepG2 cells and L02 cells were detected by home‐built laser‐induced fluorescence detector. The analysis throughput achieved in this microfluidic system was about 59–68 cells/min. Copyright © 2013 John Wiley & Sons, Ltd. |
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| Keywords: | 3D hydrodynamic focusing high‐throughput hydrostatic pressure single‐cell analysis |
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