about
Bioengineering Models for Breast Cancer ResearchA systems biology view of blood vessel growth and remodellingDevelopment and characterization of a microfluidic model of the tumour microenvironment.Tumor bioengineering using a transglutaminase crosslinked hydrogelEnsemble analysis of angiogenic growth in three-dimensional microfluidic cell culturesRise of the micromachines: microfluidics and the future of cytometryExploitation of physical and chemical constraints for three-dimensional microtissue construction in microfluidics.In vitro microvessels for the study of angiogenesis and thrombosis.High-content single-cell analysis on-chip using a laser microarray scanner.In vitro models of tumor vessels and matrix: engineering approaches to investigate transport limitations and drug delivery in cancer.Tumor engineering: the other face of tissue engineering.Dense type I collagen matrices that support cellular remodeling and microfabrication for studies of tumor angiogenesis and vasculogenesis in vitroSpontaneous dormancy of metastatic breast cancer cells in an all human liver microphysiologic systemFlow measurements in a blood-perfused collagen vessel using x-ray micro-particle image velocimetry.Three-dimensional organotypic culture: experimental models of mammalian biology and disease.Physiologically relevant organs on chips.Laser Direct-Write Onto Live Tissues: A Novel Model for Studying Cancer Cell Migration.A microphysiological system model of therapy for liver micrometastasesPhosphorescent nanoparticles for quantitative measurements of oxygen profiles in vitro and in vivo.Production of Uniform 3D Microtumors in Hydrogel Microwell Arrays for Measurement of Viability, Morphology, and Signaling Pathway ActivationFull range physiological mass transport control in 3D tissue culturesA Rapidly Fabricated Microfluidic Chip for Cell Culture.Microengineered tumor models: insights & opportunities from a physical sciences-oncology perspectiveIntrinsic FGF2 and FGF5 promotes angiogenesis of human aortic endothelial cells in 3D microfluidic angiogenesis system.Three-dimensional microfluidic collagen hydrogels for investigating flow-mediated tumor-endothelial signaling and vascular organization.TISSUE ENGINEERING PERFUSABLE CANCER MODELS.Optical oxygen sensors for applications in microfluidic cell culture.Microtechnology for mimicking in vivo tissue environment.Application of microfluidic systems in management of head and neck squamous cell carcinoma.Printing and prototyping of tissues and scaffolds.Microfluidic culture models to study the hydrodynamics of tumor progression and therapeutic response.Microfluidic multiculture assay to analyze biomolecular signaling in angiogenesisMicrofluidic approaches to the study of angiogenesis and the microcirculation.Physicochemical regulation of endothelial sprouting in a 3D microfluidic angiogenesis model.Vasculature-On-A-Chip for In Vitro Disease Models.Controlling Differentiation of Stem Cells for Developing Personalized Organ-on-Chip Platforms.Organs-on-a-chip: a focus on compartmentalized microdevices.
P2860
Q26770495-D784FB41-0BC1-4453-B5C6-E5F794BDF5C1Q27003945-75F8E3B8-7BCD-439A-8FEA-72D3BD0BDC1FQ28315265-F7149F6B-9831-4A0D-AAC2-45296F7905E9Q28542066-E141AC8E-EEF4-49AB-8B9E-A190EE42B3FAQ28729177-95BC3ED4-8843-496D-AA8D-D54030ED5B2CQ28741316-1D3129A3-22BB-4901-A6DF-B7D9DB47128CQ30474710-1CEC5EB3-635B-4BD3-B42D-3AA9C07CED3FQ30519206-585CBBA5-5142-4A3D-8934-BA7388C6AB5FQ31092583-F79408B4-2D00-4A36-8E17-3512C621D148Q33605281-C9230001-3942-41EF-8068-0856B83DF894Q34165794-934B3905-D49C-4949-8A70-4D79A92C033AQ34172822-9FE32370-4C48-413F-94B6-9C1A0B23FAC7Q34687026-49EDC426-8087-4087-95AB-3FE7ED3CAB05Q35049501-9241FF1A-764F-4D37-A7A5-6E4012BF09B7Q35155660-35B9AEB0-76A3-4696-A35A-77E6DA335193Q35785080-B4F38B70-8D78-4B95-8F4F-8E940CDF1E49Q35938703-012822F3-5465-4350-933B-78B8D28C0BB9Q36072561-FDECD4B6-8E9E-4423-96D9-670B608B6405Q36142044-B4991C3F-3DE3-44B3-B717-0EF38E3C2607Q36297745-6C588EAF-C7BB-46D7-8A4D-7AA2B0F986A2Q36434466-8D1E8C69-A761-43EB-BEA7-6205948140ABQ36947536-697F4221-C2E1-4F20-88F3-A76D00500D15Q37022156-F31E12CE-C805-42E9-BAB7-25A34F277D6FQ37054315-BBAC780D-797F-430C-AFEE-2A3F83EF9FB0Q37408790-1E2D92BE-E73A-4111-930B-E3C33026478DQ37630408-7C90082C-8394-442E-B5D2-1DBF0E79850AQ37967749-F83CAF4D-BEAC-4A38-8EBC-05C486F2F802Q37973002-8B570243-9A81-44CD-BF3A-428828F6C85AQ37981633-E4C51111-4F78-4A90-8149-CCCF3B69EED6Q38060685-49C1A7EB-B453-4CE6-B438-DC0829BA95F0Q38101533-996A655A-BE76-4BB9-B646-6BED3A6947BFQ38905882-225C212D-3028-4380-8E27-8DA3FAAF8F1AQ39128311-13191674-EF98-495D-80EB-00FD650F8E2FQ39439657-135072BE-DFCC-4CE1-A842-EEF6F362DC93Q41513342-E683EE4B-2C6E-4CE8-BD40-6F5D6DE049D5Q47675953-0DFB18D4-0532-4AFF-8E12-DB8DA96A38CCQ51544732-E677684D-6A71-4623-92BD-E17F9221F0C1
P2860
description
2010 nî lūn-bûn
@nan
2010 թուականի Յուլիսին հրատարակուած գիտական յօդուած
@hyw
2010 թվականի հուլիսին հրատարակված գիտական հոդված
@hy
2010年の論文
@ja
2010年論文
@yue
2010年論文
@zh-hant
2010年論文
@zh-hk
2010年論文
@zh-mo
2010年論文
@zh-tw
2010年论文
@wuu
name
Microfluidic culture models of tumor angiogenesis.
@ast
Microfluidic culture models of tumor angiogenesis.
@en
Microfluidic culture models of tumor angiogenesis.
@nl
type
label
Microfluidic culture models of tumor angiogenesis.
@ast
Microfluidic culture models of tumor angiogenesis.
@en
Microfluidic culture models of tumor angiogenesis.
@nl
prefLabel
Microfluidic culture models of tumor angiogenesis.
@ast
Microfluidic culture models of tumor angiogenesis.
@en
Microfluidic culture models of tumor angiogenesis.
@nl
P2860
P1476
Microfluidic culture models of tumor angiogenesis.
@en
P2093
Abraham D Stroock
P2860
P304
P356
10.1089/TEN.TEA.2009.0689
P577
2010-07-01T00:00:00Z