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Journal Abstract Search

416 related items for PubMed ID: 30343256

  • 1. Untangling the response of bone tumor cells and bone forming cells to matrix stiffness and adhesion ligand density by means of hydrogels.
    Jiang T, Zhao J, Yu S, Mao Z, Gao C, Zhu Y, Mao C, Zheng L.
    Biomaterials; 2019 Jan; 188():130-143. PubMed ID: 30343256
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  • 3. Effect of matrix stiffness and adhesion ligand density on chondrogenic differentiation of mesenchymal stem cells.
    Zhan X.
    J Biomed Mater Res A; 2020 Mar; 108(3):675-683. PubMed ID: 31747107
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  • 4. Synthesis of stiffness-tunable and cell-responsive Gelatin-poly(ethylene glycol) hydrogel for three-dimensional cell encapsulation.
    Cao Y, Lee BH, Peled HB, Venkatraman SS.
    J Biomed Mater Res A; 2016 Oct; 104(10):2401-11. PubMed ID: 27170015
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  • 6. Modulating polymer chemistry to enhance non-viral gene delivery inside hydrogels with tunable matrix stiffness.
    Keeney M, Onyiah S, Zhang Z, Tong X, Han LH, Yang F.
    Biomaterials; 2013 Dec; 34(37):9657-65. PubMed ID: 24011715
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  • 7. Gelatin-Based Matrices as a Tunable Platform To Study in Vitro and in Vivo 3D Cell Invasion.
    Peter M, Singh A, Mohankumar K, Jeenger R, Joge PA, Gatne MM, Tayalia P.
    ACS Appl Bio Mater; 2019 Feb 18; 2(2):916-929. PubMed ID: 35016295
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  • 8. Molecular interactions and forces of adhesion between single human neural stem cells and gelatin methacrylate hydrogels of varying stiffness.
    Puckert C, Tomaskovic-Crook E, Gambhir S, Wallace GG, Crook JM, Higgins MJ.
    Acta Biomater; 2020 Apr 01; 106():156-169. PubMed ID: 32084598
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  • 9. Combinational effect of matrix elasticity and alendronate density on differentiation of rat mesenchymal stem cells.
    Jiang P, Mao Z, Gao C.
    Acta Biomater; 2015 Jun 01; 19():76-84. PubMed ID: 25805109
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  • 11. Photopolymerized injectable RGD-modified fumarated poly(ethylene glycol) diglycidyl ether hydrogels for cell growth.
    Akdemir ZS, Akçakaya H, Kahraman MV, Ceyhan T, Kayaman-Apohan N, Güngör A.
    Macromol Biosci; 2008 Sep 09; 8(9):852-62. PubMed ID: 18504803
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  • 12. Hydrogels of agarose, and methacrylated gelatin and hyaluronic acid are more supportive for in vitro meniscus regeneration than three dimensional printed polycaprolactone scaffolds.
    Bahcecioglu G, Hasirci N, Bilgen B, Hasirci V.
    Int J Biol Macromol; 2019 Feb 01; 122():1152-1162. PubMed ID: 30218727
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  • 13. Facile modulation of cell adhesion to a poly(ethylene glycol) diacrylate film with incorporation of polystyrene nano-spheres.
    Yang W, Yu H, Li G, Wang Y, Liu L.
    Biomed Microdevices; 2016 Dec 01; 18(6):107. PubMed ID: 27830453
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  • 14. Mechanosensing of cells in 3D gel matrices based on natural and synthetic materials.
    Shan J, Chi Q, Wang H, Huang Q, Yang L, Yu G, Zou X.
    Cell Biol Int; 2014 Nov 01; 38(11):1233-43. PubMed ID: 24919784
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  • 15. Hydrogel co-networks of gelatine methacrylate and poly(ethylene glycol) diacrylate sustain 3D functional in vitro models of intestinal mucosa.
    Vila A, Torras N, Castaño AG, García-Díaz M, Comelles J, Pérez-Berezo T, Corregidor C, Castaño Ó, Engel E, Fernández-Majada V, Martínez E.
    Biofabrication; 2020 Feb 07; 12(2):025008. PubMed ID: 31805546
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  • 16. Stem cell-derived extracellular matrix enables survival and multilineage differentiation within superporous hydrogels.
    Köllmer M, Keskar V, Hauk TG, Collins JM, Russell B, Gemeinhart RA.
    Biomacromolecules; 2012 Apr 09; 13(4):963-73. PubMed ID: 22404228
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  • 17. Fibrinogen-Based Hydrogel Modulus and Ligand Density Effects on Cell Morphogenesis in Two-Dimensional and Three-Dimensional Cell Cultures.
    Yosef A, Kossover O, Mironi-Harpaz I, Mauretti A, Melino S, Mizrahi J, Seliktar D.
    Adv Healthc Mater; 2019 Jul 09; 8(13):e1801436. PubMed ID: 31081289
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  • 18. Enhanced Cellular Activity in Gelatin-Poly(Ethylene Glycol) Hydrogels without Compromising Gel Stiffness.
    Hoang Thi TT, Lee JS, Lee Y, Park KM, Park KD.
    Macromol Biosci; 2016 Mar 09; 16(3):334-40. PubMed ID: 26663697
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