Biological applications of microfluidic gradient devices.
about
Microfluidic gradient device for studying mesothelial cell migration and the effect of chronic carbon nanotube exposureTemporal gradients in microfluidic systems to probe cellular dynamics: a reviewDeconstructing the third dimension: how 3D culture microenvironments alter cellular cuesChemotaxis of cell populations through confined spaces at single-cell resolutionCooperative roles of SDF-1α and EGF gradients on tumor cell migration revealed by a robust 3D microfluidic modelStudy of the Chemotactic Response of Multicellular Spheroids in a Microfluidic DeviceLab-on-a-chip workshop activities for secondary school students.A novel microfluidic platform for studying mammalian cell chemotaxis in different oxygen environments under zero-flow conditions.Inducing chemotactic and haptotactic cues in microfluidic devices for three-dimensional in vitro assays.A spatiotemporally controllable chemical gradient generator via acoustically oscillating sharp-edge structuresMicrofluidic generated EGF-gradients induce chemokinesis of transplantable retinal progenitor cells via the JAK/STAT and PI3kinase signaling pathwaysTop-down models in biology: explanation and control of complex living systems above the molecular levelRe-membering the body: applications of computational neuroscience to the top-down control of regeneration of limbs and other complex organsBiomimetic tumor microenvironment on a microfluidic platformIn Vitro Polarization of Colonoids to Create an Intestinal Stem Cell CompartmentMultizone paper platform for 3D cell culturesDiffusion phenomena of cells and biomolecules in microfluidic devices.Organs-on-chips: breaking the in vitro impasse.A microfluidic-based genetic screen to identify microbial virulence factors that inhibit dendritic cell migrationMicrofluidic devices for cell cultivation and proliferation.Surface-tension-driven gradient generation in a fluid stripe for bench-top and microwell applications.Anisotropic material synthesis by capillary flow in a fluid stripeChemistry with spatial control using particles and streams().Microfluidic chemotaxis platform for differentiating the roles of soluble and bound amyloid-β on microglial accumulation.Modeling tumor microenvironments in vitro.Hydrophilic Sponges for Leaf-Inspired Continuous Pumping of Liquids.Microfluidics embedded within extracellular matrix to define vascular architectures and pattern diffusive gradientsUse of a virtual wall valve in polydimethylsiloxane microfluidic devices for bioanalytical applications.A novel miniature dynamic microfluidic cell culture platform using electro-osmosis diode pumping.Modelling cell polarization driven by synthetic spatially graded Rac activationOn-chip open microfluidic devices for chemotaxis studiesMicrofluidic 3D models of cancer.Gradients with depth in electrospun fibrous scaffolds for directed cell behavior.Polyester μ-assay chip for stem cell studies.A Microfluidic Platform for Evaluating Neutrophil Chemotaxis Induced by Sputum from COPD PatientsNon-covalent photo-patterning of gelatin matrices using caged collagen mimetic peptidesPhysiologically relevant organs on chips.Solving medical problems with BioMEMS.Multi-gradient hydrogels produced layer by layer with capillary flow and crosslinking in open microchannels.A method to integrate patterned electrospun fibers with microfluidic systems to generate complex microenvironments for cell culture applications.
P2860
Q23913432-570E32B4-4081-4D0A-9A44-EF0618B3BCDBQ26827506-5231B4F9-127A-4192-B30E-DEE73BC24077Q27023837-DDA1CA63-6EAB-4915-BF07-C0107FF767A8Q27310963-FDB0BD88-9A21-459D-89C6-42719A8329BBQ27311460-C095E32B-3473-4137-B19B-0AE9007A0543Q27315499-30B8A85D-F1B3-47EF-86F5-653F2E6B711FQ27329875-4A3B3741-032E-4BEE-ABA4-0673EB2EF214Q27330270-5689FF55-42C5-43BC-840B-82EA183DD1B2Q27332366-D51C3341-F315-46E1-B2C1-98C4BB9982E7Q27334425-1E85DAAC-40FA-4DC2-AA63-54367489BE2CQ27336353-76601FFB-9E5F-4412-ACEA-A6D23026F6D3Q28073689-3C1A784D-6E71-4AB1-A5EE-1350FD4B79F0Q28084675-578E8026-CF46-4CD4-AA34-ECF6B77F4727Q28485304-8AD6A5C8-0EE9-44AE-91E4-E07F7013A33FQ28551498-E63B9E7F-4E72-4367-B6CB-70C00EB585D1Q28740410-4D71DFCC-A41F-42DE-A0E0-7410304B1EA4Q30380076-53564888-16D9-46C0-B3A3-B126618DB26BQ30413796-8F19DEDB-B684-4B16-A74A-69D8DEDBD717Q30415272-5F281FF0-20D2-4CBF-B83A-92A11BA56442Q30446872-1BE0F1B6-5E26-4B6A-A0EA-7FB65676D9B9Q30502345-B7ED8CA3-9499-429C-BDAF-EE3191320B87Q30503460-0BCA2F45-128A-4A3B-9696-E0F20537E10EQ30528061-0313715B-9F1F-4527-AE74-53CA62381B5DQ30539682-B8E59658-88C4-4C6E-BA5A-D8EDB378E600Q33622546-988E488E-28E9-484E-AEF0-F2C629FD92B8Q33806274-3E685D98-AD6C-4B21-8E01-52BAE2DD9D91Q33849436-CEC69210-AC7E-4A1A-922E-918FDA3D03E0Q33918075-86272623-B8E4-4A8B-9D35-88E3D856DEA9Q34304603-3131C288-8B70-4625-AD93-9134652AAF79Q34318166-86FC5FBA-7368-409A-ADB4-51567EFEF118Q34357065-B97D9180-761B-4860-9BD1-990748FFC884Q34646530-88163606-31AB-47CD-AA92-29D69DA942F9Q35047060-A9DFE60A-9D17-4507-892D-897B60488EDCQ35053103-3DD3301A-566F-41A5-BF00-211E3F7C9DE7Q35593346-69C00619-B78E-4537-B94A-D65E777B3BF6Q35602391-83E407AC-C411-44D8-9FB8-DD95684F78A4Q35785080-8FBCDC68-4E72-450F-A7D1-386EFADACE9FQ35814625-E2ECD10E-2AD1-4AB6-BB7F-7EE255EA05B6Q35819999-1D9AFDA4-DC9E-4504-82F5-FEC81ADCAA29Q36080808-F85CB135-B85A-4B7D-A99D-C21E6E6D8C7B
P2860
Biological applications of microfluidic gradient devices.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 19 October 2010
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Biological applications of microfluidic gradient devices.
@en
Biological applications of microfluidic gradient devices.
@nl
type
label
Biological applications of microfluidic gradient devices.
@en
Biological applications of microfluidic gradient devices.
@nl
prefLabel
Biological applications of microfluidic gradient devices.
@en
Biological applications of microfluidic gradient devices.
@nl
P2093
P356
P1433
P1476
Biological applications of microfluidic gradient devices.
@en
P2093
Hyung Joon Kim
Noo Li Jeon
Sudong Kim
P304
P356
10.1039/C0IB00055H
P577
2010-10-19T00:00:00Z