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842 related items for PubMed ID: 24433891

  • 1. Fabrication and in vitro biocompatibility of biomorphic PLGA/nHA composite scaffolds for bone tissue engineering.
    Qian J, Xu W, Yong X, Jin X, Zhang W.
    Mater Sci Eng C Mater Biol Appl; 2014 Mar 01; 36():95-101. PubMed ID: 24433891
    [Abstract] [Full Text] [Related]

  • 2. Preparation, characterization and in vitro analysis of novel structured nanofibrous scaffolds for bone tissue engineering.
    Wang J, Yu X.
    Acta Biomater; 2010 Aug 01; 6(8):3004-12. PubMed ID: 20144749
    [Abstract] [Full Text] [Related]

  • 3. Effects of Nano-hydroxyapatite/Poly(DL-lactic-co-glycolic acid) Microsphere-Based Composite Scaffolds on Repair of Bone Defects: Evaluating the Role of Nano-hydroxyapatite Content.
    He S, Lin KF, Sun Z, Song Y, Zhao YN, Wang Z, Bi L, Liu J.
    Artif Organs; 2016 Jul 01; 40(7):E128-35. PubMed ID: 27378617
    [Abstract] [Full Text] [Related]

  • 4. Preparation and properties of poly(lactide-co-glycolide) (PLGA)/ nano-hydroxyapatite (NHA) scaffolds by thermally induced phase separation and rabbit MSCs culture on scaffolds.
    Huang YX, Ren J, Chen C, Ren TB, Zhou XY.
    J Biomater Appl; 2008 Mar 01; 22(5):409-32. PubMed ID: 17494961
    [Abstract] [Full Text] [Related]

  • 5. Functionalization of chitosan/poly(lactic acid-glycolic acid) sintered microsphere scaffolds via surface heparinization for bone tissue engineering.
    Jiang T, Khan Y, Nair LS, Abdel-Fattah WI, Laurencin CT.
    J Biomed Mater Res A; 2010 Jun 01; 93(3):1193-208. PubMed ID: 19777575
    [Abstract] [Full Text] [Related]

  • 6. Osteochondral repair using porous poly(lactide-co-glycolide)/nano-hydroxyapatite hybrid scaffolds with undifferentiated mesenchymal stem cells in a rat model.
    Xue D, Zheng Q, Zong C, Li Q, Li H, Qian S, Zhang B, Yu L, Pan Z.
    J Biomed Mater Res A; 2010 Jul 01; 94(1):259-70. PubMed ID: 20166224
    [Abstract] [Full Text] [Related]

  • 7. Preparation and in vitro characterization of biomorphic silk fibroin scaffolds for bone tissue engineering.
    Qian J, Suo A, Jin X, Xu W, Xu M.
    J Biomed Mater Res A; 2014 Sep 01; 102(9):2961-71. PubMed ID: 24123779
    [Abstract] [Full Text] [Related]

  • 8. In vitro evaluation of chitosan/poly(lactic acid-glycolic acid) sintered microsphere scaffolds for bone tissue engineering.
    Jiang T, Abdel-Fattah WI, Laurencin CT.
    Biomaterials; 2006 Oct 01; 27(28):4894-903. PubMed ID: 16762408
    [Abstract] [Full Text] [Related]

  • 9. Fabricating a pearl/PLGA composite scaffold by the low-temperature deposition manufacturing technique for bone tissue engineering.
    Xu M, Li Y, Suo H, Yan Y, Liu L, Wang Q, Ge Y, Xu Y.
    Biofabrication; 2010 Jun 01; 2(2):025002. PubMed ID: 20811130
    [Abstract] [Full Text] [Related]

  • 10. Preparation, physicochemical properties and biocompatibility of PBLG/PLGA/bioglass composite scaffolds.
    Cui N, Qian J, Wang J, Ji C, Xu W, Wang H.
    Mater Sci Eng C Mater Biol Appl; 2017 Feb 01; 71():118-124. PubMed ID: 27987675
    [Abstract] [Full Text] [Related]

  • 11. Preparation and characterization of bimodal porous poly(γ-benzyl-L-glutamate) scaffolds for bone tissue engineering.
    Qian J, Yong X, Xu W, Jin X.
    Mater Sci Eng C Mater Biol Appl; 2013 Dec 01; 33(8):4587-93. PubMed ID: 24094164
    [Abstract] [Full Text] [Related]

  • 12. Pore size regulates cell and tissue interactions with PLGA-CaP scaffolds used for bone engineering.
    Sicchieri LG, Crippa GE, de Oliveira PT, Beloti MM, Rosa AL.
    J Tissue Eng Regen Med; 2012 Feb 01; 6(2):155-62. PubMed ID: 21446054
    [Abstract] [Full Text] [Related]

  • 13. Culturing primary human osteoblasts on electrospun poly(lactic-co-glycolic acid) and poly(lactic-co-glycolic acid)/nanohydroxyapatite scaffolds for bone tissue engineering.
    Li M, Liu W, Sun J, Xianyu Y, Wang J, Zhang W, Zheng W, Huang D, Di S, Long YZ, Jiang X.
    ACS Appl Mater Interfaces; 2013 Jul 10; 5(13):5921-6. PubMed ID: 23790233
    [Abstract] [Full Text] [Related]

  • 14. Preparation, characterization, and in vitro biological evaluation of PLGA/nano-fluorohydroxyapatite (FHA) microsphere-sintered scaffolds for biomedical applications.
    Tahriri M, Moztarzadeh F.
    Appl Biochem Biotechnol; 2014 Mar 10; 172(5):2465-79. PubMed ID: 24395697
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  • 15. Validation of scaffold design optimization in bone tissue engineering: finite element modeling versus designed experiments.
    Uth N, Mueller J, Smucker B, Yousefi AM.
    Biofabrication; 2017 Feb 21; 9(1):015023. PubMed ID: 28222045
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  • 16. In vitro degradation, biocompatibility, and in vivo osteogenesis of poly(lactic-co-glycolic acid)/calcium phosphate cement scaffold with unidirectional lamellar pore structure.
    He F, Ye J.
    J Biomed Mater Res A; 2012 Dec 21; 100(12):3239-50. PubMed ID: 22733543
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  • 17. The study on biocompatibility of porous nHA/PLGA composite scaffolds for tissue engineering with rabbit chondrocytes in vitro.
    Chen L, Zhu WM, Fei ZQ, Chen JL, Xiong JY, Zhang JF, Duan L, Huang J, Liu Z, Wang D, Zeng Y.
    Biomed Res Int; 2013 Dec 21; 2013():412745. PubMed ID: 24380082
    [Abstract] [Full Text] [Related]

  • 18. Highly porous PHB-based bioactive scaffolds for bone tissue engineering by in situ synthesis of hydroxyapatite.
    Degli Esposti M, Chiellini F, Bondioli F, Morselli D, Fabbri P.
    Mater Sci Eng C Mater Biol Appl; 2019 Jul 21; 100():286-296. PubMed ID: 30948063
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  • 19. Incorporation of PLGA nanoparticles into porous chitosan-gelatin scaffolds: influence on the physical properties and cell behavior.
    Nandagiri VK, Gentile P, Chiono V, Tonda-Turo C, Matsiko A, Ramtoola Z, Montevecchi FM, Ciardelli G.
    J Mech Behav Biomed Mater; 2011 Oct 21; 4(7):1318-27. PubMed ID: 21783141
    [Abstract] [Full Text] [Related]

  • 20. Preparation and characterization of nano-hydroxyapatite/silk fibroin porous scaffolds.
    Liu L, Liu J, Wang M, Min S, Cai Y, Zhu L, Yao J.
    J Biomater Sci Polym Ed; 2008 Oct 21; 19(3):325-38. PubMed ID: 18325234
    [Abstract] [Full Text] [Related]

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