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Journal Abstract Search

393 related items for PubMed ID: 23529905

  • 21.
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  • 22. Core-shell PLGA/collagen nanofibers loaded with recombinant FN/CDHs as bone tissue engineering scaffolds.
    Wang J, Cui X, Zhou Y, Xiang Q.
    Connect Tissue Res; 2014 Aug; 55(4):292-8. PubMed ID: 24844413
    [Abstract] [Full Text] [Related]

  • 23. Synergistic effect of scaffold composition and dynamic culturing environment in multilayered systems for bone tissue engineering.
    Rodrigues MT, Martins A, Dias IR, Viegas CA, Neves NM, Gomes ME, Reis RL.
    J Tissue Eng Regen Med; 2012 Nov; 6(10):e24-30. PubMed ID: 22451140
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  • 25. Preparation and characterization of composite nanofibers of polycaprolactone and nanohydroxyapatite for osteogenic differentiation of mesenchymal stem cells.
    Chen JP, Chang YS.
    Colloids Surf B Biointerfaces; 2011 Aug 01; 86(1):169-75. PubMed ID: 21514800
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  • 26. The osteogenic properties of CaP/silk composite scaffolds.
    Zhang Y, Wu C, Friis T, Xiao Y.
    Biomaterials; 2010 Apr 01; 31(10):2848-56. PubMed ID: 20071025
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  • 27. Composite chitosan/silk fibroin nanofibers for modulation of osteogenic differentiation and proliferation of human mesenchymal stem cells.
    Lai GJ, Shalumon KT, Chen SH, Chen JP.
    Carbohydr Polym; 2014 Oct 13; 111():288-97. PubMed ID: 25037354
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  • 28. Modulation of Bone-Specific Tissue Regeneration by Incorporating Bone Morphogenetic Protein and Controlling the Shell Thickness of Silk Fibroin/Chitosan/Nanohydroxyapatite Core-Shell Nanofibrous Membranes.
    Shalumon KT, Lai GJ, Chen CH, Chen JP.
    ACS Appl Mater Interfaces; 2015 Sep 30; 7(38):21170-81. PubMed ID: 26355766
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  • 32. Control of osteogenic differentiation and mineralization of human mesenchymal stem cells on composite nanofibers containing poly[lactic-co-(glycolic acid)] and hydroxyapatite.
    Lee JH, Rim NG, Jung HS, Shin H.
    Macromol Biosci; 2010 Feb 11; 10(2):173-82. PubMed ID: 19685498
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  • 33. Potential of inherent RGD containing silk fibroin-poly (Є-caprolactone) nanofibrous matrix for bone tissue engineering.
    Bhattacharjee P, Kundu B, Naskar D, Kim HW, Bhattacharya D, Maiti TK, Kundu SC.
    Cell Tissue Res; 2016 Feb 11; 363(2):525-40. PubMed ID: 26174955
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  • 34.
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  • 35. Osteogenesis and angiogenesis induced by porous β-CaSiO(3)/PDLGA composite scaffold via activation of AMPK/ERK1/2 and PI3K/Akt pathways.
    Wang C, Lin K, Chang J, Sun J.
    Biomaterials; 2013 Jan 11; 34(1):64-77. PubMed ID: 23069715
    [Abstract] [Full Text] [Related]

  • 36. Mesoporous silica-layered biopolymer hybrid nanofibrous scaffold: a novel nanobiomatrix platform for therapeutics delivery and bone regeneration.
    Singh RK, Jin GZ, Mahapatra C, Patel KD, Chrzanowski W, Kim HW.
    ACS Appl Mater Interfaces; 2015 Apr 22; 7(15):8088-98. PubMed ID: 25768431
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  • 37. The efficacy of polycaprolactone/hydroxyapatite scaffold in combination with mesenchymal stem cells for bone tissue engineering.
    Chuenjitkuntaworn B, Osathanon T, Nowwarote N, Supaphol P, Pavasant P.
    J Biomed Mater Res A; 2016 Jan 22; 104(1):264-71. PubMed ID: 26362586
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  • 39. Polydopamine-Templated Hydroxyapatite Reinforced Polycaprolactone Composite Nanofibers with Enhanced Cytocompatibility and Osteogenesis for Bone Tissue Engineering.
    Gao X, Song J, Ji P, Zhang X, Li X, Xu X, Wang M, Zhang S, Deng Y, Deng F, Wei S.
    ACS Appl Mater Interfaces; 2016 Feb 10; 8(5):3499-515. PubMed ID: 26756224
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  • 40. Differentiation of Wharton's Jelly-Derived Mesenchymal Stem Cells into Motor Neuron-Like Cells on Three-Dimensional Collagen-Grafted Nanofibers.
    Bagher Z, Azami M, Ebrahimi-Barough S, Mirzadeh H, Solouk A, Soleimani M, Ai J, Nourani MR, Joghataei MT.
    Mol Neurobiol; 2016 May 10; 53(4):2397-408. PubMed ID: 26001761
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