Islamic Azad University Najafabad Branch;
Xi An Jiao Tong Univ;
Lebanese Amer Univ;
Urmia Univ;
Isfahan University of Technology Faculty of Material Engineerings;
Marwadi Univ;
Islamic Univ Babylon;
Islamic Azad University Khomeini Shahr Branch;
关键词:
Biological Responses;
Hardystonite;
Bone Tissue Engineering;
Biocompatibility;
Bioactivity;
Coating;
期刊名称:
Tissue and Cell
i s s n:
0040-8166
年卷期:
2024 年
91 卷
页 码:
102551-102551
页 码:
摘 要:
Widespread adoption for substitutes of artificial bone grafts based on proper bioceramics has been generated in recent years. Among them, calcium-silicate-based bioceramics, which possess osteoconductive properties and can directly attach to biological organs, have attracted substantial attention for broad ranges of applications in bone tissue engineering. Approaches exist for a novel strategy to promote the drawbacks of bioceramics such as the incorporation of Zn2+, Mg2+, and Zr4+ ions into calcium-silicate networks, and the improvement of their physical, mechanical, and biological properties. Recently, hardystonite (Ca2ZnSi2O7) bioceramics, as one of the most proper calcium-silicate-based bioceramics, has presented excellent biocompatibility, bioactivity, and interaction. Due to its physical, mechanical, and biological behaviors and ability to be shaped utilizing a variety of fabrication techniques, hardystonite possesses the potential to be applied in biomedical and tissue engineering, mainly bone tissue engineering. A notable potential exists for the newly developed bioceramics to help therapies supply clinical outputs. The promising review paper has been presented by considering major aims to summarize and discuss the most applicable studies carried out for its physical, mechanical, and biological behaviors.
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