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Journal Abstract Search

1901 related items for PubMed ID: 24712441

  • 1. Bioengineered 3D brain tumor model to elucidate the effects of matrix stiffness on glioblastoma cell behavior using PEG-based hydrogels.
    Wang C, Tong X, Yang F.
    Mol Pharm; 2014 Jul 07; 11(7):2115-25. PubMed ID: 24712441
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  • 6. PEITC inhibits human brain glioblastoma GBM 8401 cell migration and invasion through the inhibition of uPA, Rho A, and Ras with inhibition of MMP-2, -7 and -9 gene expression.
    Chou YC, Chang MY, Wang MJ, Yu FS, Liu HC, Harnod T, Hung CH, Lee HT, Chung JG.
    Oncol Rep; 2015 Nov 07; 34(5):2489-96. PubMed ID: 26352173
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  • 7. Regulation of glioma cell phenotype in 3D matrices by hyaluronic acid.
    Pedron S, Becka E, Harley BA.
    Biomaterials; 2013 Oct 07; 34(30):7408-17. PubMed ID: 23827186
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  • 8. A human co-culture cell model incorporating microglia supports glioblastoma growth and migration, and confers resistance to cytotoxics.
    Leite DM, Zvar Baskovic B, Civita P, Neto C, Gumbleton M, Pilkington GJ.
    FASEB J; 2020 Jan 07; 34(1):1710-1727. PubMed ID: 31914660
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  • 10. Hydrogel matrix presence and composition influence drug responses of encapsulated glioblastoma spheroids.
    Hill L, Bruns J, Zustiak SP.
    Acta Biomater; 2021 Sep 15; 132():437-447. PubMed ID: 34010694
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  • 11. Matrix Stiffness Modulates Patient-Derived Glioblastoma Cell Fates in Three-Dimensional Hydrogels.
    Wang C, Sinha S, Jiang X, Murphy L, Fitch S, Wilson C, Grant G, Yang F.
    Tissue Eng Part A; 2021 Mar 15; 27(5-6):390-401. PubMed ID: 32731804
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  • 12. 3D Microenvironment Stiffness Regulates Tumor Spheroid Growth and Mechanics via p21 and ROCK.
    Taubenberger AV, Girardo S, Träber N, Fischer-Friedrich E, Kräter M, Wagner K, Kurth T, Richter I, Haller B, Binner M, Hahn D, Freudenberg U, Werner C, Guck J.
    Adv Biosyst; 2019 Sep 15; 3(9):e1900128. PubMed ID: 32648654
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  • 13. The Influence of Hyaluronic Acid and Glioblastoma Cell Coculture on the Formation of Endothelial Cell Networks in Gelatin Hydrogels.
    Ngo MT, Harley BA.
    Adv Healthc Mater; 2017 Nov 15; 6(22):. PubMed ID: 28941173
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  • 14. Dynamically Crosslinked Poly(ethylene-glycol) Hydrogels Reveal a Critical Role of Viscoelasticity in Modulating Glioblastoma Fates and Drug Responses in 3D.
    Sinha S, Ayushman M, Tong X, Yang F.
    Adv Healthc Mater; 2023 Jan 15; 12(1):e2202147. PubMed ID: 36239185
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  • 15. Bioengineered Scaffolds for 3D Analysis of Glioblastoma Proliferation and Invasion.
    Heffernan JM, Overstreet DJ, Le LD, Vernon BL, Sirianni RW.
    Ann Biomed Eng; 2015 Aug 15; 43(8):1965-77. PubMed ID: 25515315
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  • 16. A comparative study of brain tumor cells from different age and anatomical locations using 3D biomimetic hydrogels.
    Wang C, Sinha S, Jiang X, Fitch S, Wilson C, Caretti V, Ponnuswami A, Monje M, Grant G, Yang F.
    Acta Biomater; 2020 Oct 15; 116():201-208. PubMed ID: 32911104
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  • 17. Heparin-hyaluronic acid hydrogel in support of cellular activities of 3D encapsulated adipose derived stem cells.
    Gwon K, Kim E, Tae G.
    Acta Biomater; 2017 Feb 15; 49():284-295. PubMed ID: 27919839
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  • 18. Gradient hydrogels for screening stiffness effects on patient-derived glioblastoma xenograft cellfates in 3D.
    Zhu D, Trinh P, Li J, Grant GA, Yang F.
    J Biomed Mater Res A; 2021 Jun 15; 109(6):1027-1035. PubMed ID: 32862485
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  • 19. The mode and dynamics of glioblastoma cell invasion into a decellularized tissue-derived extracellular matrix-based three-dimensional tumor model.
    Koh I, Cha J, Park J, Choi J, Kang SG, Kim P.
    Sci Rep; 2018 Mar 15; 8(1):4608. PubMed ID: 29545552
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  • 20. The influence of matrix stiffness on the behavior of brain metastatic breast cancer cells in a biomimetic hyaluronic acid hydrogel platform.
    Narkhede AA, Crenshaw JH, Manning RM, Rao SS.
    J Biomed Mater Res A; 2018 Jul 15; 106(7):1832-1841. PubMed ID: 29468800
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