[明胶粒径及明胶/磷酸钙骨水泥比例对复合人工骨材料修复效能的影响]
[Influence of gelatin particle size and gelatin/calcium phosphate cement ratio on repairing potency of composite artificial bone material].
作者信息
Li Yun, Liu Yan-ming, Fu Tao, Li Bo
机构信息
Department of Oral and Maxillofacial Surgery, the Second Affiliated Hospital, Zhejiang University School of Medicine, Hangzhou 310009, China;
Institute of Biomedical Polymers, Zhejiang University, Hangzhou 310031, China.
出版信息
Zhejiang Da Xue Xue Bao Yi Xue Ban. 2015 May;44(3):293-300. doi: 10.3785/j.issn.1008-9292.2015.05.09.
OBJECTIVE
To investigate the influence of gelatin particle (GP) size and gelatin/calcium phosphate cement (GP/CPC) ratio on repairing potency of comparison artificial bone material.
METHODS
Composite GP/CPC materials with different GP size (100200 μm vs. 200300 μm) and ratio(5% vs. 10%) were prepared. Physiochemical and biological properties, including porosity, resistance to compression, ultrastructure and biocompatibility were compared among 4 groups of GP/CPC materials. Different GP/CPC materials were used to repair the critical-size cranial bone defect in rabbit model, and the histology and newly formed bone inside scaffolds (nBIS) were examined and compared among different groups.
RESULTS
GP/CPC with GP of 200300 μm possessed larger micropores than that with GP of 100200 μm (P<0.05). The GP/CPC containing 10% GP had higher porosity than that containing 5% GP (P<0.05). The animal model study showed that more new bone formed in those defects filled with GP/CPC containing 10% GP with 200300 μm in size compared with GP/CPC containing 5% GP with 100200 μm in size (P<0.05). While GP/CPC containing 5% GP with 100~200 μm in size showed a higher level of resistance to compression.
CONCLUSION
Both the particle size of GP and its ratio in the GP/CPC affect the properties of the composite biomaterials and their role in bone repairing. In particular, the GP/CPC containing 10% GP with 200~300 μm in size is most suitable for repairing critical-size cranial bone defect in animal model.
目的
研究明胶颗粒(GP)大小及明胶/磷酸钙骨水泥(GP/CPC)比例对比较性人工骨材料修复效能的影响。
方法
制备具有不同GP大小(100200μm与200300μm)及比例(5%与10%)的复合GP/CPC材料。比较4组GP/CPC材料的理化和生物学特性,包括孔隙率、抗压强度、超微结构及生物相容性。采用不同的GP/CPC材料修复兔模型中的临界尺寸颅骨缺损,检查并比较不同组的组织学及支架内新形成骨(nBIS)情况。
结果
GP大小为200300μm的GP/CPC比GP大小为100200μm的具有更大的微孔(P<0.05)。含10% GP的GP/CPC比含5% GP的孔隙率更高(P<0.05)。动物模型研究显示,与大小为100200μm且含5% GP的GP/CPC相比,在填充有大小为200300μm且含10% GP的GP/CPC的缺损中形成了更多新骨(P<0.05)。而大小为100~200μm且含5% GP的GP/CPC表现出更高的抗压强度。
结论
GP的颗粒大小及其在GP/CPC中的比例均影响复合生物材料的性能及其在骨修复中的作用。特别是,大小为200~300μm且含10% GP的GP/CPC最适合修复动物模型中的临界尺寸颅骨缺损。
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