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Journal Abstract Search

581 related items for PubMed ID: 18756590

  • 1. Cultivation of human bone marrow stromal cells on three-dimensional scaffolds of mineralized collagen: influence of seeding density on colonization, proliferation and osteogenic differentiation.
    Lode A, Bernhardt A, Gelinsky M.
    J Tissue Eng Regen Med; 2008 Oct; 2(7):400-7. PubMed ID: 18756590
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  • 2. Proliferation and osteogenic differentiation of human bone marrow stromal cells on alginate-gelatine-hydroxyapatite scaffolds with anisotropic pore structure.
    Bernhardt A, Despang F, Lode A, Demmler A, Hanke T, Gelinsky M.
    J Tissue Eng Regen Med; 2009 Jan; 3(1):54-62. PubMed ID: 19012272
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  • 3. Human bone marrow stroma stem cell distribution in calcium carbonate scaffolds using two different seeding methods.
    Zhu H, Schulz J, Schliephake H.
    Clin Oral Implants Res; 2010 Feb; 21(2):182-8. PubMed ID: 19958378
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  • 4. Osteogenic differentiation of human bone marrow mesenchymal stem cells seeded on melt based chitosan scaffolds for bone tissue engineering applications.
    Costa-Pinto AR, Correlo VM, Sol PC, Bhattacharya M, Charbord P, Delorme B, Reis RL, Neves NM.
    Biomacromolecules; 2009 Aug 10; 10(8):2067-73. PubMed ID: 19621927
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  • 5. In vitro evaluation of textile chitosan scaffolds for tissue engineering using human bone marrow stromal cells.
    Heinemann C, Heinemann S, Lode A, Bernhardt A, Worch H, Hanke T.
    Biomacromolecules; 2009 May 11; 10(5):1305-10. PubMed ID: 19344120
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  • 6. Development of specific collagen scaffolds to support the osteogenic and chondrogenic differentiation of human bone marrow stromal cells.
    Dawson JI, Wahl DA, Lanham SA, Kanczler JM, Czernuszka JT, Oreffo RO.
    Biomaterials; 2008 Jul 11; 29(21):3105-16. PubMed ID: 18442852
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  • 7. Mag-seeding of rat bone marrow stromal cells into porous hydroxyapatite scaffolds for bone tissue engineering.
    Shimizu K, Ito A, Honda H.
    J Biosci Bioeng; 2007 Sep 11; 104(3):171-7. PubMed ID: 17964479
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  • 8. Osteogenic differentiation of adipose-derived stromal cells treated with GDF-5 cultured on a novel three-dimensional sintered microsphere matrix.
    Shen FH, Zeng Q, Lv Q, Choi L, Balian G, Li X, Laurencin CT.
    Spine J; 2006 Sep 11; 6(6):615-23. PubMed ID: 17088192
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  • 14. In vitro characterization of three-dimensional scaffolds seeded with human bone marrow stromal cells for tissue engineered growth of bone: mission impossible? A methodological approach.
    Materna T, Rolf HJ, Napp J, Schulz J, Gelinsky M, Schliephake H.
    Clin Oral Implants Res; 2008 Apr 11; 19(4):379-86. PubMed ID: 18324959
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  • 16. Novel hydroxyapatite/chitosan bilayered scaffold for osteochondral tissue-engineering applications: Scaffold design and its performance when seeded with goat bone marrow stromal cells.
    Oliveira JM, Rodrigues MT, Silva SS, Malafaya PB, Gomes ME, Viegas CA, Dias IR, Azevedo JT, Mano JF, Reis RL.
    Biomaterials; 2006 Dec 11; 27(36):6123-37. PubMed ID: 16945410
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  • 17. [Analysis of hBMSCs spatial distribution and gene expression in biocoral scaffold with different seeding methods].
    Zhu H, Sun L, Chen J, Wang H.
    Zhongguo Xiu Fu Chong Jian Wai Ke Za Zhi; 2009 Jul 11; 23(7):845-50. PubMed ID: 19662991
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  • 18. Hard tissue formation in a porous HA/TCP ceramic scaffold loaded with stromal cells derived from dental pulp and bone marrow.
    Zhang W, Walboomers XF, van Osch GJ, van den Dolder J, Jansen JA.
    Tissue Eng Part A; 2008 Feb 11; 14(2):285-94. PubMed ID: 18333781
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  • 19. Proliferation and osteogenesis of immortalized bone marrow-derived mesenchymal stem cells in porous polylactic glycolic acid scaffolds under perfusion culture.
    Yang J, Cao C, Wang W, Tong X, Shi D, Wu F, Zheng Q, Guo C, Pan Z, Gao C, Wang J.
    J Biomed Mater Res A; 2010 Mar 01; 92(3):817-29. PubMed ID: 19280635
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