Liver-cell patterning lab chip: mimicking the morphology of liver lobule tissue.
about
Microscale screening systems for 3D cellular microenvironments: platforms, advances, and challengesTwo-dimensional single-cell patterning with one cell per well driven by surface acoustic waves.Standing surface acoustic wave based cell coculture.Accelerating drug discovery via organs-on-chips.3D Bioprinting for Tissue and Organ Fabrication.Cell patterning via diffraction-induced optoelectronic dielectrophoresis force on an organic photoconductive chip.Platinum black electrodeposited thread based electrodes for dielectrophoretic assembly of microparticles.Integrating in vitro organ-specific function with the microcirculation.Cell patterning for liver tissue engineering via dielectrophoretic mechanisms.Biomimetic cardiac microsystems for pathophysiological studies and drug screens.3D liver models on a microplatform: well-defined culture, engineering of liver tissue and liver-on-a-chip.Microfluidics: reframing biological enquiry.Cell-laden microfluidic microgels for tissue regeneration.Elucidating the DEP phenomena using a volumetric polarization approach with consideration of the electric double layer.Organ-on-a-Chip Systems: Microengineering to Biomimic Living Systems.A biologically inspired lung-on-a-chip device for the study of protein-induced lung inflammation.Magnetically controllable 3D microtissues based on magnetic microcryogels.A novel approach for precisely controlled multiple cell patterning in microfluidic chips by inkjet printing and the detection of drug metabolism and diffusion.Recapitulation of microtissue models connected with real-time readout systems via 3D printing technologyThree-dimensional cell manipulation and patterning using dielectrophoresis via a multi-layer scaffold structure.Fabrication of low-cost micropatterned polydimethyl-siloxane scaffolds to organise cells in a variety of two-dimensioanl biomimetic arrangements for lab-on-chip culture platforms.Engineered bone scaffolds with Dielectrophoresis-based patterning using 3D printing.Organ-On-A-Chip Platforms: A Convergence of Advanced Materials, Cells, and Microscale Technologies.Controlling Differentiation of Stem Cells for Developing Personalized Organ-on-Chip Platforms.Separation and assisted patterning of hippocampal neurons from glial cells using positive dielectrophoresis.Mimicking liver sinusoidal structures and functions using a 3D-configured microfluidic chip.A Cell Culture Platform to Maintain Long-term Phenotype of Primary Human Hepatocytes and Endothelial Cells.Capillary Origami Inspired Fabrication of Complex 3D Hydrogel Constructs.Bioprinting Perfusion-Enabled Liver Equivalents for Advanced Organ-on-a-Chip Applications.
P2860
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P2860
Liver-cell patterning lab chip: mimicking the morphology of liver lobule tissue.
description
2013 nî lūn-bûn
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2013年の論文
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2013年学术文章
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2013年学术文章
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2013年学术文章
@zh-cn
2013年学术文章
@zh-hans
2013年学术文章
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2013年学术文章
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2013年學術文章
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2013年學術文章
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name
Liver-cell patterning lab chip: mimicking the morphology of liver lobule tissue.
@en
Liver-cell patterning lab chip: mimicking the morphology of liver lobule tissue.
@nl
type
label
Liver-cell patterning lab chip: mimicking the morphology of liver lobule tissue.
@en
Liver-cell patterning lab chip: mimicking the morphology of liver lobule tissue.
@nl
prefLabel
Liver-cell patterning lab chip: mimicking the morphology of liver lobule tissue.
@en
Liver-cell patterning lab chip: mimicking the morphology of liver lobule tissue.
@nl
P2093
P2860
P356
P1433
P1476
Liver-cell patterning lab chip: mimicking the morphology of liver lobule tissue.
@en
P2093
Chen-Ta Ho
Chung-Kuang Chin
Hwan-You Chang
Hwei-Ling Peng
Rong-Jhe Chen
Shau-Feng Chang
Song-En Gong
Tri-Rung Yew
P2860
P304
P356
10.1039/C3LC50402F
P577
2013-09-01T00:00:00Z