Biodegradable polymer/hydroxyapatite composites : surface analysis and initial attachment of human osteoblasts

Rizzi, Simone C., Heath, Deborah, Coombes, A. G. A., Bock, N., Textor, Marcus, & Downes, Sandra (2001) Biodegradable polymer/hydroxyapatite composites : surface analysis and initial attachment of human osteoblasts. Journal of Biomedical Materials Research, 55(4), pp. 475-486.

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Abstract

Biodegradable polymer/hydroxyapatite (HA) composites have potential application as bone graft substitutes. Thin films of polymer/HA composites were produced, and the initial attachment of primary human osteoblasts (HOBs) was assessed to investigate the biocompatibility of the materials. Poly(-caprolactone) (PCL) and poly(L-lactic acid) (PLA) were used as matrix materials for two types of HA particles, 50-m sintered and submicron nonsintered. Using ESEM, cell morphology on the surfaces of samples was investigated after 90 min, 4 h, and 24 h of cell culture. Cell activity and viability were assessed after 24 h of cell culture using Alamar blue and DNA assays. Surface morphology of the polymer/HA composites and HA exposure were investigated using ESEM and EDXA, respectively. ESEM enabled investigation of both cell and material surface morphology in the hydrated condition. Combined with EDXA it permitted chemical and visual examination of the composite. Differences in HA exposure were observed on the different composite surfaces that affected the morphology of attached cells. In the first 4 h of cell culture, the cells were spread to a higher degree on exposed HA regions of the composites and on PLA than they were on PCL. After 24 h the cells were spread equally on all the samples. The cell activity after 24 h was significantly higher on the polymer/HA composites than on the polymer films. There was no significant difference in the activity of the cells on the various composite materials. However, cells on PCL showed higher activity compared to those on PLA. A polymer surface exhibiting point exposure of HA appeared to provide a novel and favorable substrate for primary cell attachment. The cell morphology and activity results indicate a favorable cell/material interaction and suggest that PLA and PCL and their composites with HA may be candidate materials for the reconstruction of bony tissue. Further investigations regarding long-term biomaterial/cell interactions and the effects of acidic degradation products from the biodegradable polymers are required to confirm their utility. © 2001 John Wiley & Sons, Inc. J Biomed Mater Res 55: 475-486, 2001

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ID Code: 10380
Item Type: Journal Article
Refereed: Yes
Additional Information: For more information, please refer to the journal's website (see hypertext link) or contact the author.
DOI: 10.1002/1097-4636(20010615)55:4<475::AID-JBM1039>3.0.CO;2-Q
ISSN: 1549-3296
Divisions: Current > QUT Faculties and Divisions > Faculty of Health
Past > QUT Faculties & Divisions > Faculty of Science and Technology
Copyright Owner: Copyright 2001 John Wiley & Sons
Deposited On: 24 Oct 2007 00:00
Last Modified: 10 Aug 2011 17:49

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