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机构地区:[1]口腔疾病研究国家重点实验室、四川大学,四川成都610041 [2]昆明医学院口腔医院修复科,云南昆明650031
出 处:《华西口腔医学杂志》2008年第2期211-214,共4页West China Journal of Stomatology
基 金:国家“863”计划资助项目(2002AA326080)
摘 要:目的设计和构建三维丝素蛋白/羟磷灰石骨组织工程支架材料。方法联合运用丝素蛋白非编织方法和仿生矿化技术,制备并表征三维多孔丝素蛋白/纳米羟磷灰石的有机/无机组织工程支架。结果仿生矿化在非编织支架上形成的针状羟磷灰石晶体,直径20~60nm,长100~300nm。复合支架孔隙度为70%~78%,孔径为(163.4±42.6)μm。结论采用非编织丝素蛋白和仿生矿化的方法可制备孔隙度和孔径可控的组织工程支架。Objective The aim of the present study was to design and fabricate a three dimensional (3D) porous structure of silk fibroin/apatite used as a potential scaffold in bone tissue engineering. Methods With the combining use of non-woven silk fibroin net and biomimetic method, porous non-woven silk fibroin/nano-hydroxyapatite net (NSF/nHAP) was prepared and characterized with X-ray diffraction (XRD), scanning electron microscope (SEM) and fourier transform infrared spectroscopy(FTIR). The porosity and swelling ratio of the 3D scaffold were also measured. Besides, the osteoblasts from the cranium of new born SD rat were cultured on the pro-fabricated scaffold to evaluate the biological reaction of the scaffold. Results The nano-sized hydroxyapatite crystals were needle-like with the length of 100-300 nm and the diameter of 20-60 nm. The scaffold fabricated in the present study exhibited the porous microstructure with open porosity around 70%-78%. Its average pore size was about (163.4±42.6) μm. The swelling ratio and water uptaking were 4.56% and 81.93%, respectively, which revealed that the 3D porous scaffold had an excellent hydrophilicity. The rod-shaped apatite crystals could rapidly form on the surface of fibroin fibers throughout the network by immersing the net into calcium and phosphate solutions alternatively. Conclusion A 3D porous NSF/nHAP scaffold can be fabricated by biomlmetic mineralization and none-woven silk fibroin method. The novel NSF/nHAP scaffold has an excellent cytocompatibility for the growth of osteoblasts. Porous NSF/nHAP scaffold may be a hopeful biomaterial used in bone tissue engineering.
分 类 号:R318.08[医药卫生—生物医学工程]
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