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

scientific article

Multi-channel cell co-culture for drug development based on glass microfluidic chip-mass spectrometry coupled platform is …
instance of (P31):
scholarly articleQ13442814

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P356DOI10.1002/RCM.7643
P698PubMed publication ID27539420

P50authorJin-Ming LinQ88210968
P2093author name stringJing Wu
Hongbin Qi
Mingsha Jie
Xueling Dong
P2860cites workMass-spectrometric identification and relative quantification of N-linked cell surface glycoproteinsQ24313398
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Reconstituting organ-level lung functions on a chipQ34122591
On-target labeling of intracellular metabolites combined with chemical mapping of individual hyphae revealing cytoplasmic relocation of isotopologues.Q34267904
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Measurement of apo(a) kinetics in human subjects using a microfluidic device with tandem mass spectrometryQ37093064
Direct observation of single stationary-phase bacteria reveals a surprisingly long period of constant protein production activityQ37474918
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Micro Total Bioassay System for Ingested Substances: Assessment of Intestinal Absorption, Hepatic Metabolism, and BioactivityQ39629904
Imitation of drug metabolism in human liver and cytotoxicity assay using a microfluidic device coupled to mass spectrometric detectionQ39685824
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The application of a new microfluidic device for the simultaneous identification and quantitation of midazolam metabolites obtained from a single micro-litre of chimeric mice bloodQ47880031
Cell signaling analysis by mass spectrometry under coculture conditions on an integrated microfluidic deviceQ48219968
Microscale culture of human liver cells for drug developmentQ50859383
An in vitro liver model on microfluidic device for analysis of capecitabine metabolite using mass spectrometer as detectorQ51500942
Continuous-flow sorting of stem cells and differentiation products based on dielectrophoresisQ51501202
Mass spectrometric detection of short-lived drug metabolites generated in an electrochemical microfluidic chipQ51502548
Cytotoxicity of quantum dots assay on a microfluidic 3D-culture device based on modeling diffusion process between blood vessels and tissuesQ51538434
P921main subjectmicrofluidicsQ138845
microfluidic chipQ112330884
P304page(s)80-86
P577publication date2016-08-01
P1433published inRapid Communications in Mass SpectrometryQ3419582
P1476titleMulti-channel cell co-culture for drug development based on glass microfluidic chip-mass spectrometry coupled platform
P478volume30 Suppl 1

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Q57099829Cell analysis on chip-mass spectrometrycites workP2860

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