Abstract
We have determined the biocompatibility of high porosity (92%) sintered hydroxyapatite (HA) foams prepared using a novel ceramic foaming system. The ability of human osteoblast-like cells to grow within the HA foam was investigated in vitro using human osteosarcoma cells seeded directly on the ceramic surfaces to determine the bioactivity. Scanning electron microscopy showed evidence of attachment of numerous cells to the surface. Significant proliferation was observed and the pattern was comparable to that of the tissue culture control, Thermanox TM . There was an increase in cell proliferation and retention of phenotype for the period studied. This hydroxyapaptite foam which has the advantage of being easily fashioned by surgeons, shows potential as a bone substitute scaffold for tissue engineering and future development for clinical application.
J Appl Biomater Biomech 2005; 3(3): 192 - 198
Article Type: ORIGINAL RESEARCH ARTICLE
Authors
H.M.T.U. Herath, L. Di Silvio, J.R.G. Evans
Article History
This article is available as full text PDF.
Authors
- Herath, H.M.T.U.
[PubMed]
[Google Scholar]
Department of Materials, Queen Mary, University of London, London - UK
- Di Silvio, L.
[PubMed]
[Google Scholar]
Guys, Kings and St Thomas Medical and Dental Institute, Kings College London, Guys Hospital, London
- Evans, J.R.G.
[PubMed]
[Google Scholar]
Department of Materials, Queen Mary, University of London, London - UK
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