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Abstrakty
Bioactive glass was supposed as a biodegradable material and designed as a scaffold to be used for bone reconstruction or regeneration. Bioactive glass scaffold with pore sizes ranged in 100-400µm in diameter was fabricated by sol-gel method, and the biocompatibility evaluation of bioactive glass scaffolds was also performed by culture in vitro models. Cells cultured in the extracts of bioactive glass appeared to show normal morphology. The scaffolds supported osteoblast growth and induced differentiation within the 21 day culture period. Confocal laser scanning microscopy (CLSM) demonstrated the normal cell distribution and proliferation on porous biomaterials. Osteoblasts attached and proliferated on the scaffold as demonstrated by scanning electron microscopy (SEM). Nodule formation and multilayer structures were observed on the scaffold surface and in the pores of the glass. The relationship between seeding density and viability of human osteoblasts cultured on the porous bioactive glass were measured.
Słowa kluczowe
Wydawca
Czasopismo
Rocznik
Tom
Strony
505--516
Opis fizyczny
Bibliogr. 20 poz.
Twórcy
autor
autor
- College of Chemistry and Chemical Engineering, Hunan University of Science and Technology, Xiangtan 411201, P.R. China, zhou7381@sohu.com
Bibliografia
- [1] TAKEZAWA T. A., Biomater., 24 (2003), 2267.
- [2] HENCH L.L., POLAK J.M,. Science, 295 (2002), 1014.
- [3] JONES J.R., POOLOGASUNDARAMPILLAI G., ATWOOD R.C., BERNARD D., LEE P.D., Biomater., 28 (2007), 1404.
- [4] OKII N., NISHIMURA S., KURISU K., TAKESHIMA Y., UOZUMI T., Neur. Med-Chir., 41, (2001), 100.
- [5] FREYMAN T.M., YANNAS I.V., GIBSON L.J., Prog. Mater. Sci., 46 (2001), 273.
- [6] HENCH L.L., POLAK J.M., Science, 295 (2002), 1014.
- [7] JONES J.R., TSIGKOU O., COATES E.E., STEVENS M.M., POLAK J.M., HENCH L.L., Biomater., 28 (2007), 1653.
- [8] VITALE-BROVARONE C., VERNE E., ROBIGLIO L., APPENDINO P, BASSI F., MARTINASSO G., MUZIO G., CANUTO R., Acta. Biomater., 3 (2007), 199.
- [9] ZHOU Z.H., RUAN J.M., ZOU J.P., ZHOU Z.C., SHEN X.J., J. Cent. South Univ. Technol., 3 (2007), 301.
- [10] JONES J.R., HENCH L.L., J. Biomed. Mater. Res., 68 B (2004), 36.
- [11] BARRETT E.P., JOYNER L.G., HALENDA P.P., J. Amer. Chem. Soc., 73 (1951), 373.
- [12] HORVATH G., KAWAZOE K., J. Chem. Eng. Japan, 16 (1983), 470.
- [13] ZHANG K., WASHBUN N.R., SIMON J.C.G., Biomater., 26 (2005), 4532.
- [14] JONES J.R., EHRENFRIED L.M., HENCH L.L., Biomater., 27 (2006), 964.
- [15] ANDRADE Â.L, VALÈRIO P., GOES A.M., LEITE M.F., DOMINGUES R.Z., J. Non-Cryst. Solids, 352 (2006), 3508.
- [16] PATEL N., BEST S.M., BONFIELD W., GIBSON I.R., HING K.A., J. Mater. Sci: Mater. Med., 13 (2002), 199.
- [17] XYNOS I.D., EDGAR A.J., BUTTERY L.D.K., HENCH L.L, POLAK J.M., Biochem. Biophys. Res. Commun., 276 (2000), 461.
- [18] XYNOS I.D., EDGAR A.J., BUTTERY L.D.K., HENCH L.L, POLAK J.M., J. Biomed. Mater. Res., 155 (2000), 151.
- [19] GOUGH J.E., JONES J.R., HENCH L.L., Biomater., 25 (2004), 2039.
- [20] PADILLA S., ROMAN J., SANCHEZ-SALCEDO S., VALLET-REGI M., Acta. Biomater., 2 (2006), 331.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BPW8-0006-0024