Lee Eun Ji, Lee Jong Ho, Jin Linhua, Jin Oh Seong, Shin Yong Cheol, Sang Jin Oh, Lee Jaebeom, Hyon Suong-Hyu, Han Dong-Wook
J Nanosci Nanotechnol. 2014 Nov;14(11):8458-63. doi: 10.1166/jnn.2014.9922.
In this study, hyaluronic acid (HA)/poly(lactic-co-glycolic acid, PLGA) core/shell fiber meshes loaded with epigallocatechin-3-O-gallate (EGCG) (HA/PLGA-E) for application to tissue engineering scaffolds for skin regeneration were prepared via coaxial electrospinning. Physicochemical properties of HA/PLGA-E core/shell fiber meshes were characterized by SEM, Raman spectroscopy, contact angle, EGCG release profiling and in vitro degradation. Biomechanical properties of HA/PLGA-E meshes were also investigated by a tensile strength test. SEM images showed that HA/PLGA-E fiber meshes had a three-dimensional interconnected pore structure with an average fiber diameter of about 1270 nm. Raman spectra revealed that EGCG was uniformly dispersed in the PLGA shell of meshes. HA/PLGA-E meshes showed sustained EGCG release patterns by controlled diffusion and PLGA degradation over 4 weeks. EGCG loading did not adversely affect the tensile strength and elastic modulus of HA/PLGA meshes, while increased their hydrophilicity and surface energy. Attachment of human dermal fibroblasts on HA/PLGA-E meshes was appreciably increased and their proliferation was steadily retained during the culture period. These results suggest that HA/PLGA-E core/shell fiber meshes can be potentially used as scaffolds supporting skin regeneration.
在本研究中,通过同轴静电纺丝制备了负载表没食子儿茶素-3-O-没食子酸酯(EGCG)的透明质酸(HA)/聚乳酸-乙醇酸共聚物(PLGA)核/壳纤维网(HA/PLGA-E),用于皮肤再生的组织工程支架。通过扫描电子显微镜(SEM)、拉曼光谱、接触角、EGCG释放曲线和体外降解对HA/PLGA-E核/壳纤维网的物理化学性质进行了表征。还通过拉伸强度测试研究了HA/PLGA-E网的生物力学性能。SEM图像显示,HA/PLGA-E纤维网具有三维相互连接的孔隙结构,平均纤维直径约为1270 nm。拉曼光谱表明,EGCG均匀地分散在网的PLGA壳中。HA/PLGA-E网通过控制扩散和PLGA降解在4周内呈现出EGCG的持续释放模式。EGCG负载并未对HA/PLGA网的拉伸强度和弹性模量产生不利影响,同时增加了它们的亲水性和表面能。人真皮成纤维细胞在HA/PLGA-E网上的附着明显增加,并且在培养期间其增殖得以稳定维持。这些结果表明,HA/PLGA-E核/壳纤维网有可能用作支持皮肤再生的支架。
