Elucidating the mechanobiology of malignant brain tumors using a brain matrix-mimetic hyaluronic acid hydrogel platform.
about
Strategies of Mesenchymal Invasion of Patient-derived Brain Tumors: Microenvironmental Adaptation.Deconstructing the role of the ECM microenvironment on drug efficacy targeting MAPK signaling in a pre-clinical platform for cutaneous melanoma.Cellular microenvironment modulates the galvanotaxis of brain tumor initiating cellsBiomimetic tumor microenvironment on a microfluidic platformTumor bioengineering using a transglutaminase crosslinked hydrogelInterstitial flow differentially increases patient-derived glioblastoma stem cell invasion via CXCR4, CXCL12, and CD44-mediated mechanisms.Advances in multicellular spheroids formationHigh-resolution microrheology in the pericellular matrix of prostate cancer cells.Mimicking white matter tract topography using core-shell electrospun nanofibers to examine migration of malignant brain tumors.CD44-mediated adhesion to hyaluronic acid contributes to mechanosensing and invasive motilityGlioblastoma behaviors in three-dimensional collagen-hyaluronan composite hydrogels.Age-related dysfunction in mechanotransduction impairs differentiation of human mammary epithelial progenitorsToward 3D biomimetic models to understand the behavior of glioblastoma multiforme cellsImpact of the biophysical features of a 3D gelatin microenvironment on glioblastoma malignancy.Brain metastasis is predetermined in early stages of cutaneous melanoma by CD44v6 expression through epigenetic regulation of the spliceosomeMicroenvironmental stiffness enhances glioma cell proliferation by stimulating epidermal growth factor receptor signaling.Choindroitinase ABC I-mediated enhancement of oncolytic virus spread and anti tumor efficacy: a mathematical model.Independent regulation of tumor cell migration by matrix stiffness and confinement.Recreating the tumor microenvironment in a bilayer, hyaluronic acid hydrogel construct for the growth of prostate cancer spheroidsThe Combined Influence of Hydrogel Stiffness and Matrix-Bound Hyaluronic Acid Content on Glioblastoma Invasion.Biomaterials and emerging anticancer therapeutics: engineering the microenvironment.Differential response of patient-derived primary glioblastoma cells to environmental stiffness.Modeling the tumor microenvironment using chitosan-alginate scaffolds to control the stem-like state of glioblastoma cells.Modeling tumor microenvironments using custom-designed biomaterial scaffoldsAligned Nanotopography Promotes a Migratory State in Glioblastoma Multiforme Tumor Cells.Stiffness and adhesivity control aortic valve interstitial cell behavior within hyaluronic acid based hydrogels.Microengineered tumor models: insights & opportunities from a physical sciences-oncology perspectiveAligned chitosan-polycaprolactone polyblend nanofibers promote the migration of glioblastoma cells.Biomimetic Hydrogels Incorporating Polymeric Cell-Adhesive Peptide To Promote the 3D Assembly of Tumoroids.Augmentation of integrin-mediated mechanotransduction by hyaluronic acid.A three-dimensional collagen scaffold cell culture system for screening anti-glioma therapeutics.Three-dimensionally engineered biomimetic tissue models for in vitro drug evaluation: delivery, efficacy and toxicity.Tissue engineering concept in the research of the tumor biology.Design of cell-matrix interactions in hyaluronic acid hydrogel scaffolds.The blood-brain barrier: an engineering perspective.Mechanosensing of cells in 3D gel matrices based on natural and synthetic materials.Engineering strategies to mimic the glioblastoma microenvironment.Three-dimensional patterning of multiple cell populations through orthogonal genetic control of cell motilityPNIPAAm-co-Jeffamine® (PNJ) scaffolds as in vitro models for niche enrichment of glioblastoma stem-like cells.Microfluidic on-chip biomimicry for 3D cell culture: a fit-for-purpose investigation from the end user standpoint
P2860
Q27319438-14BA57A4-9BC6-42C1-8AEF-9A1477B04C83Q27329810-16287988-081C-4A3C-84B7-66693991E9C4Q27346530-797B0A65-D0D0-4399-84A3-C447D58EFB36Q28485304-18600BD8-1C4E-41CD-B3CB-305183F90B88Q28542066-CC657AF4-68E1-4358-8C05-3E34BBA8CA3AQ30275623-7A74DD01-466D-4805-858B-E3069B564091Q30361108-1BEB3E15-11F4-46A0-BE27-DA2BE1A90787Q30519018-0442E342-4E53-486B-BAA0-A6D6CA2CB45BQ30582618-F7BAA3DB-9093-4EF2-B490-2BC62BD92AD2Q30594175-414CB388-30FE-48FF-90C6-89B5206EB3CFQ30620741-6C54144C-3063-44F5-BB41-D472C8B7152FQ34004237-A4C874D0-E511-4989-A616-2C161FFDAE77Q34025911-AAD7F531-E53C-4F70-8402-F171E5980F3CQ34655999-3EBE0E5E-7562-4D17-8D1E-C3A5F5966C12Q35023463-7930F83C-A16B-48F3-8DDE-99534AE53884Q35202307-F3194152-A1F1-41B5-B627-6C9EC953D897Q35210355-CA724D84-E673-43BC-92E7-A773FEA74EE7Q36068896-A11D5742-2261-4E2B-8646-793FAC62A130Q36303680-46B68E1C-FC1B-4B0E-B3B7-A3728E4F8785Q36335596-38C7A54F-FD10-451E-8413-1B4293035B1EQ36684345-83EC055B-92C2-4F96-9956-80E2C51D0243Q36708038-3AFFB04E-9C74-45CA-A1CC-1D29937C2269Q36717318-269EE66B-7372-466A-B13A-FB47A4DDF183Q36857398-CC571208-777B-4451-874B-1A6BC8C0C784Q36910540-C6A2EFA5-1989-4AE4-9941-8D6F852499D8Q36980132-2C1BF6D8-0654-4FA6-AA73-A447D1BB4884Q37022156-A385C23D-2684-4C36-A22C-472A88AD603BQ37384592-1DBFB2D1-649C-49A2-A08C-C453823ABA1AQ37490762-18207225-60E0-4A3C-9DEB-F133ADB62B55Q37595529-A551C629-5F75-4256-9C02-B83B6715FD95Q37636717-3B90EAF2-E781-44AC-AF88-C302B8F18081Q38071670-6B574204-1931-41DA-9798-0D9B117EE760Q38122201-43A0DC60-F2E6-49FD-BBFC-95A6CF945F4FQ38125270-675CE096-C857-4A43-918E-1285E18D2899Q38134725-8C2F38F3-F5ED-460C-B9BB-CAF551363AB8Q38219575-372ACADE-4426-42CF-9657-900BB83FC88DQ38244936-B2D1E382-3264-4526-A40F-A1630EBA5486Q38280538-2585FAF3-3B18-4748-A8FF-24AFBC1135A1Q38627878-08763FF4-1062-4D7C-9A4A-10D7C5D25183Q38663744-A7EE2D62-1A8C-4424-94EB-70FCA2B11DA9
P2860
Elucidating the mechanobiology of malignant brain tumors using a brain matrix-mimetic hyaluronic acid hydrogel platform.
description
2011 nî lūn-bûn
@nan
2011年の論文
@ja
2011年学术文章
@wuu
2011年学术文章
@zh-cn
2011年学术文章
@zh-hans
2011年学术文章
@zh-my
2011年学术文章
@zh-sg
2011年學術文章
@yue
2011年學術文章
@zh
2011年學術文章
@zh-hant
name
Elucidating the mechanobiology ...... uronic acid hydrogel platform.
@en
Elucidating the mechanobiology ...... uronic acid hydrogel platform.
@nl
type
label
Elucidating the mechanobiology ...... uronic acid hydrogel platform.
@en
Elucidating the mechanobiology ...... uronic acid hydrogel platform.
@nl
prefLabel
Elucidating the mechanobiology ...... uronic acid hydrogel platform.
@en
Elucidating the mechanobiology ...... uronic acid hydrogel platform.
@nl
P2093
P2860
P1433
P1476
Elucidating the mechanobiology ...... uronic acid hydrogel platform.
@en
P2093
Badriprasad Ananthanarayanan
Sanjay Kumar
Yushan Kim
P2860
P304
P356
10.1016/J.BIOMATERIALS.2011.07.005
P577
2011-08-05T00:00:00Z