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VE TPGS-Loaded Silk Fibroin / Hydroxybutyl Chitosan Nanofibrous Scaffolds for Skin Care Application

VE TPGS-Loaded Silk Fibroin / Hydroxybutyl Chitosan Nanofibrous Scaffolds for Skin Care Application
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摘要 Vitamin E( VE) is an ideal antioxidant and a stabilizing agent in biological membranes. In this study,silk fibroin( SF) /hydroxybutyl chitosan( HBC) nanofibrous scaffolds are loaded with VE tocopherol polyethylene glycol 1000 succinate( VE TPGS) via electrospinning. SEM images show that the average nanofibrous diameter has no significant difference when the content of VE TPGS increases to 4. 0%( SF / HBC). However,the average nanofibrous diameter decreases largely to 200 nm when the VE TPGS content reaches 6. 0%. Furthermore,VE TPGS presents a sustained release behavior from the nanofibrous scaffolds. Cell viability studies of mouse skin fibroblasts( L929) demonstrate that VE TPGS loaded SF / HBC nanofibrous scaffolds present good cellular compatibility.Moreover,the incorporation of VE TPGS could strengthen the ability of SF / HBC nanofibrous scaffolds on protecting the cells against oxidation stress using the Tertbutyl hydroperoxide( t-BHP)-induced oxidative injury model. Therefore,VE TPGS-loaded SF /HBC nanofibrous scaffolds might be potential candidates for personal skin care,wound dressing and skin tissue engineering scaffolds. Vitamin E( VE) is an ideal antioxidant and a stabilizing agent in biological membranes. In this study,silk fibroin( SF) /hydroxybutyl chitosan( HBC) nanofibrous scaffolds are loaded with VE tocopherol polyethylene glycol 1000 succinate( VE TPGS) via electrospinning. SEM images show that the average nanofibrous diameter has no significant difference when the content of VE TPGS increases to 4. 0%( SF / HBC). However,the average nanofibrous diameter decreases largely to 200 nm when the VE TPGS content reaches 6. 0%. Furthermore,VE TPGS presents a sustained release behavior from the nanofibrous scaffolds. Cell viability studies of mouse skin fibroblasts( L929) demonstrate that VE TPGS loaded SF / HBC nanofibrous scaffolds present good cellular compatibility.Moreover,the incorporation of VE TPGS could strengthen the ability of SF / HBC nanofibrous scaffolds on protecting the cells against oxidation stress using the Tertbutyl hydroperoxide( t-BHP)-induced oxidative injury model. Therefore,VE TPGS-loaded SF /HBC nanofibrous scaffolds might be potential candidates for personal skin care,wound dressing and skin tissue engineering scaffolds.
出处 《Journal of Donghua University(English Edition)》 EI CAS 2014年第4期533-537,共5页 东华大学学报(英文版)
基金 the Independent Design Project of Key Scientific and Technological Innovation Team of Zhejiang Province,China(No.2010R50012-19) the Key Student Research Training Project of Jiaxing University,China(No.851713022) Technology Commission of JiaxingM unicipality Program,China(No.2012AY1030) National Natural Science Foundation of China(No.31271035)
关键词 vitamin Etocopherol polyethylene glycol 1000 succinate(VE TPGS) silk fibroin(SF) /hydroxybutyl chitosan(HBC) nanofibrous scaffolds resistance to oxidation biocompatibility vitamin Etocopherol polyethylene glycol 1000 succinate(VE TPGS) silk fibroin(SF) /hydroxybutyl chitosan(HBC) nanofibrous scaffolds resistance to oxidation biocompatibility
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