In vitro degradation behaviour of non-porous ultra-fine poly(glycolic acid)/poly(L-lactic acid) fibres and porous ultra-fine poly(glycolic acid) fibres

Young You; Sung Won Lee; Ji Ho Youk; Byung-Moo Min; Seung Jin Lee; Won Ho Park

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In vitro degradation behaviour of non-porous ultra-fine poly(glycolic acid)/poly(L-lactic acid) fibres and porous ultra-fine poly(glycolic acid) fibres

机译：无孔超细聚乙醇酸/聚L-乳酸纤维和多孔超细聚乙醇酸纤维的体外降解行为

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摘要

The in vitro degradation behaviour of non-porous ultra-fine poly(glycolic acid)/poly(L-lactic acid) (PGA/PLA) fibres and porous ultra-fine PGA fibres was investigated. The non-porous ultra-fine PGA/PLA fibres were prepared by electrospinning of a PGA/PLA solution in 1,1,1,3,3,3-hexafluoro-2-propanol and the porous ultra-fine PGA fibres were obtained from them via selective removal of PLA with chloroform. Since PLA has a lower degradation rate than PGA, the degradation rates of the ultra-fine PGA/PLA fibres decreased with increasing content of PLA. The porous ultra-fine PGA fibres were degraded in vitro in the order of non-porous PGA > P-PGA/PLA(90/10) > P-PGA/PLA(70/30) > P-PGA/PLA(50/50) > P-PGA/PLA(30/70) due to autocatalytic hydrolysis.

机译：研究了无孔超细聚乙醇酸/聚L-乳酸（PGA / PLA）纤维和多孔超细PGA纤维的体外降解行为。通过将PGA / PLA溶液在1,1,1,3,3,3-六氟-2-丙醇中进行电纺丝制备无孔超细PGA / PLA纤维，并从通过用氯仿选择性去除PLA来去除它们。由于PLA的降解速率低于PGA，因此超细PGA / PLA纤维的降解速率随PLA含量的增加而降低。多孔超细PGA纤维按照无孔PGA> P-PGA / PLA（90/10）> P-PGA / PLA（70/30）> P-PGA / PLA（50 / 50）> P-PGA / PLA（30/70），原因是自催化水解。

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来源
《Polymer Degradation and Stability》 |2005年第3期|p.441-448|共8页
作者
Young You; Sung Won Lee; Ji Ho Youk; Byung-Moo Min; Seung Jin Lee; Won Ho Park;
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作者单位

Department of Textile Engineering, Chungnam National University, 220 Gungdong, Yuseong-ku, Daejeon 305-764, South Korea;

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原文格式 PDF
正文语种 eng
中图分类高分子化学（高聚物）;
关键词
poly(glycolic acid); poly(L-lactic acid); electrospinning; porous ultra-fine fibre; biodegradability;

机译：聚乙醇酸聚L-乳酸电纺多孔超细纤维生物降解性;

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In vitro degradation behaviour of non-porous ultra-fine poly(glycolic acid)/poly(L-lactic acid) fibres and porous ultra-fine poly(glycolic acid) fibres

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