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2013 (English)In: Clinical Oral Implants Research, ISSN 0905-7161, E-ISSN 1600-0501, Vol. 24, no 3, p. 329-335Article in journal (Refereed) Published
Abstract [en]
Objectives To systematically investigate the biological interface of Bio-Oss by analysing dissolution–precipitation behaviour and osteogenic responses using in vitro experimental systems.
Material and methods Different concentrations (1–100 mg/ml) of Bio-Oss were incubated in cell culture medium for 24 h before elemental concentrations for calcium, phosphorus and silicon in the medium were analysed with inductive coupled plasma-optical emission spectroscopy. Radioactive calcium-45 isotope labelling technique was used to study possible precipitation of calcium on the Bio-Oss particle. Biological interface of Bio-Oss was studied in osteogenic experiments using mineralization medium and three different sources of cells (primary mouse bone marrow stromal cells, primary rat calvarial cells and MC3T3-E1 mouse pre-osteoblast cell line). Cells were fixed and stained with Toulidine blue, von Kossa or Alizarin Red staining for confirmation of extracellular matrix mineralization.
Results Elemental analysis of the cell culture medium demonstrated a significant decrease of calcium and phosphorus and a dose-dependent release of silicon to the medium after incubation with Bio-Oss. A significant decrease of calcium and phosphorus in the medium occurred even at low concentrations of Bio-Oss. Uptake of calcium on the Bio-Oss particle was confirmed with radioactive calcium-45 isotope labelling technique. In osteogenic experiments with Bio-Oss (<1 mg/ml), matrix mineralization around the Bio-Oss particles were demonstrated in all three cell types with von Kossa and Alizarin Red staining.
Conclusion Dissolution–precipitation reactions occur at the surface of Bio-Oss, and osteogenic responses are seen at the biological interface. The concentration of Bio-Oss is a key factor for the experimental in vitro results, and may also have implications for the clinic.
Place, publisher, year, edition, pages
John Wiley & Sons, 2013
Keywords
Bio-Oss, bone graft, cell culture, ICP-OES, interface, mineralization, xenograft
National Category
Cell and Molecular Biology
Identifiers
urn:nbn:se:umu:diva-47367 (URN)10.1111/j.1600-0501.2011.02334.x (DOI)000314656500013 ()22092546 (PubMedID)2-s2.0-84873459672 (Scopus ID)
Note
Article first published online: 1 NOV 2011
2011-09-202011-09-202024-07-02Bibliographically approved