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dc.contributor.authorvan Noort, Danny*
dc.date.accessioned2021-02-11T19:33:52Z
dc.date.available2021-02-11T19:33:52Z
dc.date.issued2019*
dc.date.submitted2019-12-09 11:49:16*
dc.identifier42599*
dc.identifier.urihttps://directory.doabooks.org/handle/20.500.12854/53423
dc.description.abstractMicrofluidics-based devices play an important role in creating realistic microenvironments in which cell cultures can thrive. They can, for example, be used to monitor drug toxicity and perform medical diagnostics, and be in a static-, perfusion- or droplet-based device. They can also be used to study cell-cell, cell-matrix or cell-surface interactions. Cells can be either single cells, 3D cell cultures or co-cultures. Other organisms could include bacteria, zebra fish embryo, C. elegans, to name a few.*
dc.languageEnglish*
dc.subjectTA1-2040*
dc.subjectT1-995*
dc.subject.othern/a*
dc.subject.otherscreening*
dc.subject.othermicrofluidic device*
dc.subject.othercell homogenous dispersion structure*
dc.subject.otherRNA*
dc.subject.otherbiomedical engineering*
dc.subject.otherneural networks*
dc.subject.othersingle-cell mechanics*
dc.subject.otheron-chip cell incubator*
dc.subject.othercell growth*
dc.subject.otherembryogenesis*
dc.subject.othercancer stem cell*
dc.subject.otherintracellular proteins*
dc.subject.othersimultaneous multiple chamber observation*
dc.subject.otherinstrumentation*
dc.subject.otherfnRBC*
dc.subject.othercancer metastasis*
dc.subject.otherWheatstone bridge*
dc.subject.othercapillary*
dc.subject.othersingle-cell manipulation*
dc.subject.otheradherent cells*
dc.subject.othernucleic acid*
dc.subject.othermicropipette aspiration*
dc.subject.othersample preparation*
dc.subject.otherunsupervised learning*
dc.subject.othercell motility*
dc.subject.othercapture efficiency*
dc.subject.otherbacterial concentration*
dc.subject.othercbNIPD*
dc.subject.othermicrofabrication*
dc.subject.otherdrug resistance*
dc.subject.othervariational inference*
dc.subject.othermicrofluidics*
dc.subject.otherperiodic hydrostatic pressure*
dc.subject.otherparacrine signaling*
dc.subject.otherperiodic pressure*
dc.subject.othercapacitively coupled contactless conductivity detection (C4D)*
dc.subject.otherbioMEMS*
dc.subject.othermicrofluidic flow cytometry*
dc.subject.otherparticle/cell imaging*
dc.subject.otherco-culture*
dc.subject.othercells-in-gels-in-paper*
dc.subject.otherlaminar flows*
dc.subject.otherE. coli*
dc.subject.otherprinted-circuit-board (PCB)*
dc.subject.otherpneumatic microvalve*
dc.subject.othertime-lapse observation*
dc.subject.othernanostructure*
dc.subject.other3D particle focusing*
dc.subject.othertarget cell-specific binding molecules*
dc.subject.otherabsolute quantification*
dc.subject.otherDNA*
dc.subject.otherzebrafish embryo*
dc.subject.othermicroscopy*
dc.subject.other3D printing*
dc.subject.other3D flow focusing*
dc.subject.othersingle-cell analysis*
dc.titleMicrofluidics for Cells and Other Organisms*
dc.typebook
oapen.identifier.doi10.3390/books978-3-03921-563-8*
oapen.relation.isPublishedBy46cabcaa-dd94-4bfe-87b4-55023c1b36d0*
virtual.oapen_relation_isPublishedBy.publisher_nameMDPI - Multidisciplinary Digital Publishing Institute
virtual.oapen_relation_isPublishedBy.publisher_websitewww.mdpi.com/books
oapen.relation.isbn9783039215638*
oapen.relation.isbn9783039215621*
oapen.pages200*
oapen.edition1st*


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Except where otherwise noted, this item's license is described as https://creativecommons.org/licenses/by-nc-nd/4.0/