Autor: |
Kemal, Sariibrahimoglu, Joop G C, Wolke, Sander C G, Leeuwenburgh, Li, Yubao, John A, Jansen |
Rok vydání: |
2013 |
Předmět: |
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Zdroj: |
Journal of biomedical materials research. Part B, Applied biomaterials. 102(3) |
ISSN: |
1552-4981 |
Popis: |
Apatitic calcium phosphate cements (CPCs) have been widely used as bone grafts due to their excellent osteoconductive properties, but the degradation properties are insufficient to stimulate bone healing in large bone defects. A novel approach to overcome the lack of degradability of apatitic CPC involves the development of biphasic CPCs (BCPC) based on tricalcium phosphate (TCP) in both α- and β-polymorphs. The aim of the current study was to prepare and analyze the physicochemical properties of BCPCs based on dual phase α/β-TCP as obtained by heat treatment of pure α-TCP. The handling and mechanical characteristics of the samples as well as the degradation behavior under in vitro condition were investigated and compared with a standard monophasic α-TCP-based CPC. The results showed that different heat treatments of commercially available α-TCP allowed the formation of biphasic calcium phosphate powder with a variety of α/β-TCP ratios. The use of biphasic powder particles as a reactant for CPCs resulted into increased setting and injectability times of the final BCPCs. During hardening of the cements, the amount of apatite formation decreased with increasing β-TCP content in the biphasic precursor powders. The morphology of the monophasic CPC consisted of plate-like crystals, whereas needle-like crystals were observed for BCPCs. In vitro degradation tests demonstrated that dissolution rate and corresponding calcium release from the set cements increased considerably with increasing β-TCP content, suggesting that apatitic CPCs can be rendered degradable by using biphasic α/β-TCP as powder precursor phase. |
Databáze: |
OpenAIRE |
Externí odkaz: |
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