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N-乙烯基吡咯烷酮接枝改性聚乳酸组织工程支架的制备与性能 被引量:3

Preparation and Properties of N-Vinyl Pyrrolidone Grafted PLA Engineering Scaffolds
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摘要 利用热致相分离技术制备了N-乙烯基吡咯烷酮接枝改性聚乳酸(M-PLA)组织工程支架。在接枝率36%条件下,讨论了聚合物浓度、水/二氧六环比例和粗化温度对支架孔隙度和微孔结构的影响;并进一步探讨了在相同制备工艺条件下,不同接枝率对支架结构的影响,并对M-PLA支架的亲水性和蛋白粘附性能进行测试。结果显示,在一定接枝率下,支架孔隙度随聚合物浓度增大而降低;水的添加有利于规则孔径的形成;粗化温度降低,支架孔径和孔隙度提高。与PLA支架相比,随着接枝率提高,共聚物支架孔隙度变化不大,孔径略减小,但孔隙规整性和连通性较好,亲水性和蛋白粘附率明显增大,生物相容性提高。 N-vinyl pyrrolidone grafted polylactic acid (M-PLA) scaffold for tissue engmeenrig was fabricated by thermal induced phase separation technique. The effect of polymer concentration, water/ dioxane ratio and coarsening temperature on the scaffold porosity and structure was studied with grafting ratio of 36%. And the effect of grafting ratio on the scaffold structure was also studied with the same preparation conditions. The hydrophilicity and protein adhesion of M-PLA scaffold was tested. The results show that the porosity of the M-PLA scaffold with grafting ratio of 36% decreased with the increase of polymer concentration, water was conducive to the formation of a regular porous structure, and the pore size and the porosity of the scaffold increased with the decrease of coarsening temperature. With increasing grafting ratio, there were no significant changes in the porosity and pore size of the scaffold, but better pore regularity and connectivity compared with PLA scaffold. The hydrophilicity and protein adhesion test shows that the M-PLA scaffold had higher hydration, protein adhesion ratio and better biocompatibility.
作者 倪茂君 刘思阳 包雯婷 彭朝荣 陈屿恒 王静霞 陈竹平
机构地区 四川省原子能研究院
出处 《精细化工》 EI CAS CSCD 北大核心 2014年第11期1301-1305,共5页 Fine Chemicals
基金 四川省科技支撑项目(2012GZ0109)~~
关键词 辐射改性 支架 亲水性 蛋白粘附 功能材料 irradiation modification scaffold hydrophilicity protein adhesion functional materials
分类号 TQ251.3 [化学工程—有机化工]
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参考文献10

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精细化工
2014年 第11期

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