Mineralization regulation and biological influence of bioactive glass-collagen-phosphatidylserine composite scaffolds 被引量：1

Mineralization regulation and biological influence of bioactive glass-collagen-phosphatidylserine composite scaffolds

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摘要 Biomimetic scaffolds are appealing products for the repair of bone defects using tissue engineering strategies.In the present study,novel biomimetic composite scaffolds,with similar properties to natural bone,were prepared,blended and cross-linked with bioactive glass,type I collagen and phosphatidylserine.When exposed to cell culture solution in the absence of a cellular source,the composite scaffolds form crystals with octahedral structure.These crystals are similar to the products derived from MC3T3-E1 cell mineralization within the composite scaffolds,with respect to both composition and morphology.Furthermore,crystals with octahedral structure were observed to develop into plate-like hydroxyapatite.The bio-mineralization behavior of the composite scaffolds is likely influenced by inorganic components.Finally,a rabbit tibia defect model shows that the highly bioactive properties of the investigated composites result in excellent bone repair. Biomimetic scaffolds are appealing products for the repair of bone defects using tissue engineering strategies. In the present study, novel biomimetic composite scaffolds, with similar properties to natural bone, were prepared, blended and cross-linked with bioactive glass, type I collagen and phosphatidylserine. When exposed to cell culture solution in the absence of a cellular source, the composite scaffolds form crystals with octahedral structure. These crystals are similar to the products derived from MC3T3-E1 cell mineralization within the composite scaffolds, with respect to both composition and morphology. Furthermore, crystals with octahedral structure were observed to develop into plate-like hydroxyapatite. The bio-mineralization behavior of the composite scaffolds is likely influenced by inorganic components. Finally, a rabbit tibia defect model shows that the highly bioactive properties of the investigated composites result in excellent bone repair.

作者 YANG ChunRong WANG YingJun CHEN XiaoFeng

机构地区 Department of Materials Science and Engineering Key Laboratory of Specialty Functional Materials of Ministry of Education

出处《Science China(Life Sciences)》 SCIE CAS 2012年第3期236-240,共5页 中国科学（生命科学英文版）

基金 supported by the Science and Technology Plan Project of Fujian Department of Education,China (Grant No. JK2009021)

关键词生物活性玻璃支架材料生物矿化胶原蛋白复合磷脂细胞培养液骨修复材料 composite, scaffold, cell, bio-mineralization, regulation

分类号 TQ171.4 [化学工程—玻璃工业] Q813.11 [生物学—生物工程]

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