Xueling Dong scite author profile

RATIONALE:Cell-based drug assay plays an essential role in drug development. By coupling a microfluidic chip with mass spectrometry (MS), we developed a multifunctional platform. Cell co-culture, cell apoptosis assay, fluorescence and MS detection of intracellular drug absorption could be simultaneously conducted on this platform. METHODS: Three micro-channels were fabricated through photolithography technology to conduct the cell co-culture. Cell apoptosis after drug treatment was assayed by fluorescent probes (Hoechst 33342). Intracellular Dox absorption was analyzed by confocal fluorescent microscopy. With a high voltage (~4.5 kV) applied onto the microfluidic chip, the ionization spray was successfully generated by dropping isopropanol onto it. By coupling with a Shimadzu LCMS-2010 A mass spectrometer, intracellular CPA absorption was detected on the microfluidic chip. RESULTS: The microfluidic chip-MS coupled platform showed high biocompatibility. Distinction of cell apoptosis between co-cultured and mono-cultured cells was detected. The results of intracellular drug absorption well explained the different cell apoptosis rate. CONCLUSIONS: Cell-based drug assay was facilely and successfully conducted on the microfluidic chip-MS coupled platform. This technology we have devised could promote MS application in the field of drug development. Copyright

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Biomass-burning derived aromatic acids in NIST standard reference material 1649b and the environmental implications

Gao

Dong

et al. 2018

Atmospheric Environment

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Xueling Dong

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Multi‐channel cell co‐culture for drug development based on glass microfluidic chip‐mass spectrometry coupled platform

Biomass-burning derived aromatic acids in NIST standard reference material 1649b and the environmental implications

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