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Journal Abstract Search

149 related items for PubMed ID: 20815647

  • 21.
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  • 22. Real-time monitoring of force response measured in mechanically stimulated tissue-engineered cartilage.
    Preiss-Bloom O, Mizrahi J, Elisseeff J, Seliktar D.
    Artif Organs; 2009 Apr; 33(4):318-27. PubMed ID: 19335408
    [Abstract] [Full Text] [Related]

  • 23. Multifunctional protein-encapsulated polycaprolactone scaffolds: fabrication and in vitro assessment for tissue engineering.
    Ozkan S, Kalyon DM, Yu X, McKelvey CA, Lowinger M.
    Biomaterials; 2009 Sep; 30(26):4336-47. PubMed ID: 19481253
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  • 24. Fabricating microparticles/nanofibers composite and nanofiber scaffold with controllable pore size by rotating multichannel electrospinning.
    Huang YY, Wang DY, Chang LL, Yang YC.
    J Biomater Sci Polym Ed; 2010 Sep; 21(11):1503-14. PubMed ID: 20534198
    [Abstract] [Full Text] [Related]

  • 25. Effects of flow shear stress and mass transport on the construction of a large-scale tissue-engineered bone in a perfusion bioreactor.
    Li D, Tang T, Lu J, Dai K.
    Tissue Eng Part A; 2009 Oct; 15(10):2773-83. PubMed ID: 19226211
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  • 26. Influence of cartilaginous matrix accumulation on viscoelastic response of chondrocyte/agarose constructs under dynamic compressive and shear loading.
    Miyata S, Tateishi T, Ushida T.
    J Biomech Eng; 2008 Oct; 130(5):051016. PubMed ID: 19045523
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  • 27.
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  • 28. Scaffold design and in vitro study of osteochondral coculture in a three-dimensional porous polycaprolactone scaffold fabricated by fused deposition modeling.
    Cao T, Ho KH, Teoh SH.
    Tissue Eng; 2003 Oct; 9 Suppl 1():S103-12. PubMed ID: 14511474
    [Abstract] [Full Text] [Related]

  • 29. Processing of polycaprolactone and polycaprolactone-based copolymers into 3D scaffolds, and their cellular responses.
    Hoque ME, San WY, Wei F, Li S, Huang MH, Vert M, Hutmacher DW.
    Tissue Eng Part A; 2009 Oct; 15(10):3013-24. PubMed ID: 19331580
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  • 32. 3D fiber-deposited scaffolds for tissue engineering: influence of pores geometry and architecture on dynamic mechanical properties.
    Moroni L, de Wijn JR, van Blitterswijk CA.
    Biomaterials; 2006 Mar; 27(7):974-85. PubMed ID: 16055183
    [Abstract] [Full Text] [Related]

  • 33. Parametric finite element analysis of physical stimuli resulting from mechanical stimulation of tissue engineered cartilage.
    Babalola OM, Bonassar LJ.
    J Biomech Eng; 2009 Jun; 131(6):061014. PubMed ID: 19449968
    [Abstract] [Full Text] [Related]

  • 34. Mechanical properties of tissue-engineered vascular constructs produced using arterial or venous cells.
    Gauvin R, Guillemette M, Galbraith T, Bourget JM, Larouche D, Marcoux H, Aubé D, Hayward C, Auger FA, Germain L.
    Tissue Eng Part A; 2011 Aug; 17(15-16):2049-59. PubMed ID: 21457095
    [Abstract] [Full Text] [Related]

  • 35. Integrated design and fabrication strategies for biomechanically and biologically functional PLA/β-TCP nanofiber reinforced GelMA scaffold for tissue engineering applications.
    Joshi MK, Lee S, Tiwari AP, Maharjan B, Poudel SB, Park CH, Kim CS.
    Int J Biol Macromol; 2020 Dec 01; 164():976-985. PubMed ID: 32710964
    [Abstract] [Full Text] [Related]

  • 36.
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  • 37.
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  • 38. Enzymatically Cross-Linked Silk Fibroin-Based Hierarchical Scaffolds for Osteochondral Regeneration.
    Ribeiro VP, Pina S, Costa JB, Cengiz IF, García-Fernández L, Fernández-Gutiérrez MDM, Paiva OC, Oliveira AL, San-Román J, Oliveira JM, Reis RL.
    ACS Appl Mater Interfaces; 2019 Jan 30; 11(4):3781-3799. PubMed ID: 30609898
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  • 39.
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  • 40. Tissue engineering of human cartilage and osteochondral composites using recirculation bioreactors.
    Mahmoudifar N, Doran PM.
    Biomaterials; 2005 Dec 30; 26(34):7012-24. PubMed ID: 16039710
    [Abstract] [Full Text] [Related]

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