通过核壳静电纺丝制备的聚癸二酸甘油酯纳米纤维支架

Poly(glycerol sebacate) nanofiber scaffolds by core/shell electrospinning.

作者信息

Yi Feng, LaVan David A

机构信息

Mechanical Engineering, Yale University, 9 Hillhouse Avenue, Mason Labs Room M3, New Haven, CT 06511, USA.

出版信息

Macromol Biosci. 2008 Sep 9;8(9):803-6. doi: 10.1002/mabi.200800041.

DOI:10.1002/mabi.200800041

PMID:18504802

Abstract

The novel biomaterial poly(glycerol sebacate) (PGS) holds great promise for tissue engineering and regenerative medicine. PGS is a rubbery, degradable polymer much like elastin; however, it has been limited to cast structures. This work reports on the formation of PGS nanofibers in random non-woven mats for use as tissue engineering scaffolds by coaxial core/shell electrospinning. PGS nanofibers are an inexpensive and synthetic material that mimics the chemical and mechanical environment provided by elastin fibers. Poly(lactide) was used as the shell material to constrain the PGS during the curing process and was removed before cell seeding. Human microvascular endothelial cells from skin (HDMEC) were used to evaluate the in-vitro cellular compatibility of the PGS nanofiber scaffolds. [Figure: see text].

摘要

新型生物材料聚癸二酸甘油酯（PGS）在组织工程和再生医学领域极具应用前景。PGS是一种类似弹性蛋白的橡胶状可降解聚合物；然而，它一直局限于浇铸结构。本研究报道了通过同轴核壳静电纺丝法制备用于组织工程支架的随机非织造垫状PGS纳米纤维。PGS纳米纤维是一种廉价的合成材料，可模拟弹性纤维提供的化学和力学环境。聚丙交酯用作壳材料，在固化过程中限制PGS，并在细胞接种前去除。采用来自皮肤的人微血管内皮细胞（HDMEC）评估PGS纳米纤维支架的体外细胞相容性。[图：见原文]

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通过核壳静电纺丝制备的聚癸二酸甘油酯纳米纤维支架

Poly(glycerol sebacate) nanofiber scaffolds by core/shell electrospinning.

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