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作 者:李双燕[1] 王曙东[1,2] 张幼珠[1] 王红卫[1] 邱鹏[1]
机构地区:[1]苏州大学纺织与服装工程学院,江苏苏州215021 [2]盐城纺织职业技术学院纺织工程系,江苏盐城224005
出 处:《合成纤维》2009年第11期22-25,30,共5页Synthetic Fiber in China
基 金:江苏省高校重点实验室开放研究课题(KJS0817)
摘 要:以具有良好生物相容性、生物可降解性的聚丙交乙交酯(PLGA)为原料,以高速旋转的滚轴为收集装置,通过静电纺丝法,制备PLGA管状支架(d=6mm)。研究不同工艺及乙醇处理对PLGA管状支架形貌结构、微细结构和生物力学性能的影响。结果表明:当纺丝液质量分数为7%,滚轴转速为1500r/min时,可制得纤维形貌规整、分布均匀,直径为(1660±218)nm,孔隙率为80.6%的PLGA管状支架;经乙醇处理后,其孔隙率减小,玻璃化温度和热分解温度提高,热稳定性增强;断裂强度、爆破强度及缝合强力均显著提高。The PLGA tubular scaffold (d=6 mm) was fabricated via electrospinning with biocompatible and biodegradable PLGA as the material, a high-speed rotating mandrel-type as the collector. The morphology, microstructure and biomechanical affected by technical parmeters were investigated. The results showed that the PLGA tubular scaffolds with good morphology were obtained when spinning solution concentration was 7 % and the rotating mandrel's speed was 1 500 r/min. At the same time, the PLGA tubular scaffold's porosity was 80.6 % and fiber diameter was (1 660±218)nm. After organic alcohol treatment, the porosity of PLGA tubular scaffold decreased, its glass temperature and thermal decomposition temperature increased, while PLGA tubular scaffold's thermal stability enhanced, the breaking intensity, burst pressure and suture strength of the PLGA tubular scaffolds were significantly improved.
分 类 号:R318.01[医药卫生—生物医学工程]
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