NanoLiterBioReactor: long-term mammalian cell culture at nanofabricated scale.
about
Scaling and systems biology for integrating multiple organs-on-a-chip.Exploitation of physical and chemical constraints for three-dimensional microtissue construction in microfluidics.Microfluidics as a functional tool for cell mechanicsThe microfluidic multitrap nanophysiometer for hematologic cancer cell characterization reveals temporal sensitivity of the calcein-AM efflux assay.A biocompatible micro cell culture chamber (microCCC) for the culturing and on-line monitoring of eukaryote cells.A transparent cell-culture microchamber with a variably controlled concentration gradient generator and flow field rectifier.A multipurpose microfluidic device designed to mimic microenvironment gradients and develop targeted cancer therapeutics.Microfluidic devices for measuring gene network dynamics in single cellsMicrofluidic platform for real-time signaling analysis of multiple single T cells in parallel.Engineered cell surface expression of membrane immunoglobulin as a means to identify monoclonal antibody-secreting hybridomasHandheld recirculation system and customized media for microfluidic cell culture.Deep wells integrated with microfluidic valves for stable docking and storage of cells.A lipobead microarray assembled by particle entrapment in a microfluidic obstacle course and used for the display of cell membrane receptors.Biocompatible micro-sized cell culture chamber for the detection of nanoparticle-induced IL8 promoter activity on a small cell populationUsing living radical polymerization to enable facile incorporation of materials in microfluidic cell culture devices.A microfluidic system to study the cytotoxic effect of drugs: the combined effect of celecoxib and 5-fluorouracil on normal and cancer cells.Tape underlayment rotary-node (TURN) valves for simple on-chip microfluidic flow controlModeling the measurements of cellular fluxes in microbioreactor devices using thin enzyme electrodesMini-scale bioprocessing systems for highly parallel animal cell cultures.A 3-D microfluidic combinatorial cell array.Enzyme-coated microelectrodes to monitor lactate production in a nanoliter microfluidic cell culture device.Microfluidic tissue model for live cell screening.A dual-column solid phase extraction strategy for online collection and preparation of continuously flowing effluent streams for mass spectrometry.A metering rotary nanopump for microfluidic systems.Variation in diffusion of gases through PDMS due to plasma surface treatment and storage conditions.Characterization of microfluidic human epidermal keratinocyte culture.Vacuum-assisted cell loading enables shear-free mammalian microfluidic culture.Microfluidic System for Automated Cell-based Assays.Hepatocyte spheroid culture on a polydimethylsiloxane chip having microcavities.Cell cultures in microsystems: biocompatibility aspects.
P2860
Q30410626-8250EA6C-225B-4437-8AC2-42F480C37C5AQ30474710-89F1F0A8-3AFF-49AF-969E-6C109CB876D0Q30487650-9C1F3A26-4490-4C8C-A6E0-FD4A2F3CFC14Q30579248-8F6E6621-8775-4BD5-8811-2D62661ACB7EQ33252106-13B7C545-084A-45E9-AE9A-9982DA96B4ABQ33495201-9F94132A-0F1B-497C-8059-0263B1B3A2FBQ33792264-4EF798D8-FABD-40A6-954C-88AD7A565E3AQ34098336-D6B6F0A4-C8BD-4C88-A88D-20E6BD25998DQ34160024-9549B562-BD51-4EE2-B842-CFDCD01B13BBQ34193791-28B7F56A-2F01-423D-BC69-00C48E538E9FQ34478888-B2F73A8D-2FA0-4F22-B9B3-D9B0F93DEF59Q34646474-22DE11A5-2A39-45CF-9C08-2AD33819BC52Q34763433-C71CC40D-FD83-44C1-BE92-8E7C23414F1BQ35538325-E9CEE767-632B-47BF-8B18-96583AC4C7B8Q36593350-23EB56DE-1ED3-40C1-AE09-0B2D1E80872FQ36948358-6FF6F5A7-0FB0-41CA-9F14-2B1D8860E1BCQ37091438-290A6751-C640-45C2-A6BE-9CC2E720DD21Q37158657-A4107D56-D87C-44B9-9F2B-1107542CBCADQ38004398-286BA6C3-EE5A-45EE-8D40-8D9C9A7AF8F0Q39633796-A4677050-160A-42DC-9326-35E522DC51BAQ39690131-BA8E4B5E-9F11-4CE9-A3EE-61E064A145DEQ40116547-9E6154EC-70D7-468A-8422-C7B0D8855E78Q41862458-12D9D3D6-2B65-4216-A089-D44BB7727777Q41990487-6278BEFE-51AA-4D35-AE98-DF87314C3F4AQ42006713-A5283BFD-9283-498A-8F29-5A9BD0681377Q42212626-4ABED092-8F9A-4709-879E-36E86BF48C61Q42369703-6B628F00-0DF9-4F41-A439-BACBF7C0F106Q42913936-DCB7ECDD-7200-424B-A587-BB6291A7FB0BQ51123431-A78C0EF6-361C-4541-8754-D63222AE963FQ51750634-B23858E9-623D-40F7-BB84-13362760ED2A
P2860
NanoLiterBioReactor: long-term mammalian cell culture at nanofabricated scale.
description
2004 nî lūn-bûn
@nan
2004年の論文
@ja
2004年学术文章
@wuu
2004年学术文章
@zh-cn
2004年学术文章
@zh-hans
2004年学术文章
@zh-my
2004年学术文章
@zh-sg
2004年學術文章
@yue
2004年學術文章
@zh
2004年學術文章
@zh-hant
name
NanoLiterBioReactor: long-term mammalian cell culture at nanofabricated scale.
@en
type
label
NanoLiterBioReactor: long-term mammalian cell culture at nanofabricated scale.
@en
prefLabel
NanoLiterBioReactor: long-term mammalian cell culture at nanofabricated scale.
@en
P2093
P1476
NanoLiterBioReactor: long-term mammalian cell culture at nanofabricated scale.
@en
P2093
Ales Prokop
David Cliffel
Eugene Kozlov
Franz Baudenbacher
John Wikswo
Zdenka Prokop
P304
P356
10.1023/B:BMMD.0000048564.37800.D6
P407
P577
2004-12-01T00:00:00Z
P5875
P6179
1048946829