Niu Jinlong, Zhang Zhenxi, Jiang Dazong
Institute of Biomedical Engineering, Xian Jiaotong University, Xi'an 710049.
Sheng Wu Yi Xue Gong Cheng Xue Za Zhi. 2002 Jun;19(2):302-5.
The macroporous structure of human bone allows the ingrowth of the soft tissues and organic cells into the bone matrix, profits the development and metabolism of bone tissue, and adapts the bone to the change of load. There is great requirement for artificial biomimic porous bioactive ceramics with the similar structure of bone tissue that can be used clinically for repairing lost bone. Fine hydroxyapatite (HAp) powder produced by wet chemical reaction was mixed with hydrogen peroxide (H2O2), polyvinyl alcohol, methyl cellulose or other pores-making materials to form green cake. After drying at low temperature (below 100 degrees C) and decarbonizing at about 300 degrees C-400 degrees C, the spongy ceramic block was sintered at high temperature, thus, macroporous HAp bioceramic with interconnected pores and reasonable porosity and pore-diameter was manufactured. This kind of porous HAp bioceramics were intrinsically osteoinductive to a certain degree, but its outstanding property was that they can absorb human bone morphogenetic proteins and other bone growth factors to form composites, so that the macroporous HAp bioactive ceramic has appropriate feasibility for clinical application. From the point of biomedical application, the recent developments in synthesis and characteristics investigation of macroporous HAp are reviewed in this paper.
人体骨骼的大孔结构允许软组织和有机细胞长入骨基质,有利于骨组织的发育和新陈代谢,并使骨骼适应负荷变化。临床上对具有类似骨组织结构的可用于修复骨缺损的人工仿生多孔生物活性陶瓷有很大需求。通过湿化学反应制备的精细羟基磷灰石(HAp)粉末与过氧化氢(H2O2)、聚乙烯醇、甲基纤维素或其他造孔材料混合形成生坯。在低温(低于100℃)干燥并在约300℃-400℃脱碳后,将海绵状陶瓷块高温烧结,从而制造出具有相互连通的孔隙以及合理孔隙率和孔径的大孔HAp生物陶瓷。这种多孔HAp生物陶瓷在一定程度上具有内在的骨诱导性,但其突出特性是它们能够吸收人骨形态发生蛋白和其他骨生长因子以形成复合材料,因此大孔HAp生物活性陶瓷在临床应用中具有一定的可行性。从生物医学应用的角度出发,本文综述了大孔HAp在合成及特性研究方面的最新进展。