Measurement of cell migration in response to an evolving radial chemokine gradient triggered by a microvalve
about
Microfluidic gradient device for studying mesothelial cell migration and the effect of chronic carbon nanotube exposureBurn injury reduces neutrophil directional migration speed in microfluidic devicesOn-Chip Quantitative Measurement of Mechanical Stresses During Cell Migration with Emulsion Droplets.Microfluidic quadrupole and floating concentration gradientPolydimethylsiloxane-based conducting composites and their applications in microfluidic chip fabrication.A platform for assessing chemotactic migration within a spatiotemporally defined 3D microenvironment.A microfluidic imaging chamber for the direct observation of chemotactic transmigrationPolar stimulation and constrained cell migration in microfluidic channels.Directional decisions during neutrophil chemotaxis inside bifurcating channels.Design and dynamic characterization of "single-stroke" peristaltic PDMS micropumps.A transparent cell-culture microchamber with a variably controlled concentration gradient generator and flow field rectifier.Microfluidics meet cell biology: bridging the gap by validation and application of microscale techniques for cell biological assays.Image-based analysis of primary human neutrophil chemotaxis in an automated direct-viewing assay.A low resistance microfluidic system for the creation of stable concentration gradients in a defined 3D microenvironmentMicrofluidic technologies for temporal perturbations of chemotaxis.Biomolecular gradients in cell culture systems.Protein Crystallization in an Actuated Microfluidic Nanowell Device.The evolution of chemotaxis assays from static models to physiologically relevant platforms.Advances in microfluidics for drug discovery.Gradient biomaterials and their influences on cell migration.Regeneration-on-a-chip? The perspectives on use of microfluidics in regenerative medicine.Microplatforms for gradient field generation of various properties and biological applications.Microfluidic transwell inserts for generation of tissue culture-friendly gradients in well plates.Epithelial-to-mesenchymal transition of human lung alveolar epithelial cells in a microfluidic gradient device.Evaluation of neurite outgrowth anisotropy using a novel application of circular analysis.Gradient generation platforms: new directions for an established microfluidic technology.Passive control of cell locomotion using micropatterns: the effect of micropattern geometry on the migratory behavior of adherent cells.Dielectrophoretic characterization of cells in a stationary nanoliter droplet array with generated chemical gradients.A microfluidic device to establish concentration gradients using reagent density differences.Adjustable, rapidly switching microfluidic gradient generation using focused travelling surface acoustic waves
P2860
Q23913432-1DC5522E-4FBF-4EAC-A196-EE655DD016FAQ27322515-B523DA0A-E32D-4B06-8B26-3B7A1BF2F53BQ27333574-A4BD740E-7093-47CD-A069-C30A6C0C05F8Q30440229-CFF0BF51-31C0-4658-8225-0B4C55EF108CQ30487645-952741FB-E617-468B-A3A3-BEDD9FA36AEDQ30492725-AA41B7B0-229C-4750-9537-EE15FA9FD5E7Q30494912-76FC2188-6E63-417C-A070-39C89F15C345Q30497642-0A282AA1-2C81-452D-9771-505CEDD402FDQ30497644-C10C6FF7-B6B2-4E19-8A36-A81167C8CB25Q30547673-E549C42F-5414-4588-9133-4195901CF6FBQ33495201-9045541B-A470-44DE-8644-022F3506A4CBQ33621842-D875D6C7-A712-4632-8DB5-7FF91B590DCBQ34981574-DC345D34-E17C-42BB-833B-52E107EF6B97Q35057352-57FEF7DD-0A8C-468E-9A29-9491BBD2D8C7Q35157430-A04D790E-074F-491C-A0CA-5FAA7B1E0348Q37038439-46F31568-B177-43D0-BE3D-793855B6DC3FQ37283407-75A4DDC4-C762-4FCC-A5D0-397F1C1B05DBQ37659898-774018A1-8133-49A9-82DB-98EC49338681Q38029121-530AD061-68C5-4526-A440-CE1EB0991FAEQ38112428-E85BD2D9-3842-45B7-B484-623DDA86683EQ38123429-CE48DD88-7962-4C93-A89C-0628A7F9FF53Q38289128-FF976353-EFDF-4F68-8FAD-3E45F8A4DD7CQ39063424-8B3E65C3-5646-4ADD-849A-1184786C4275Q39242931-C4E8E4A8-1496-4B64-B608-58E088E7B0DAQ41644719-F39F8EAD-EB89-4CDA-89E1-3E38EA4F352FQ42544632-A5FAB7FD-77C5-4233-A4D2-AC1FC4C503D0Q42835393-4006554C-B805-4A94-BB00-56FAAF0F3412Q47569750-5D7757EA-A485-4455-93C9-D7D912225778Q51626753-649301AC-9C90-457F-BF72-C33E69BF9E04Q57776314-36464C9C-73F3-4D05-9EA4-BEA868A6B9D1
P2860
Measurement of cell migration in response to an evolving radial chemokine gradient triggered by a microvalve
description
2006 nî lūn-bûn
@nan
2006 թուականի Մայիսին հրատարակուած գիտական յօդուած
@hyw
2006 թվականի մայիսին հրատարակված գիտական հոդված
@hy
2006年の論文
@ja
2006年論文
@yue
2006年論文
@zh-hant
2006年論文
@zh-hk
2006年論文
@zh-mo
2006年論文
@zh-tw
2006年论文
@wuu
name
Measurement of cell migration ...... ient triggered by a microvalve
@ast
Measurement of cell migration ...... ient triggered by a microvalve
@en
type
label
Measurement of cell migration ...... ient triggered by a microvalve
@ast
Measurement of cell migration ...... ient triggered by a microvalve
@en
prefLabel
Measurement of cell migration ...... ient triggered by a microvalve
@ast
Measurement of cell migration ...... ient triggered by a microvalve
@en
P2093
P2860
P356
P1433
P1476
Measurement of cell migration ...... ient triggered by a microvalve
@en
P2093
Albert Folch
Charles W Frevert
Gregory Boggy
Thomas M Keenan
P2860
P304
P356
10.1039/B515560F
P577
2006-05-12T00:00:00Z