Fabrication of biologically inspired electrospun collagen/silk fibroin/bioactive glass composited nanofibrous to accelerate the treatment efficiency of wound repair

A triple‐layer matrix Collagen/Silk fibroin/Bioactive glass composited Nanofibrous was fabricated by linking electrospinning and freeze‐drying systems, this typical three layered composite with a nanofibrous fragment as the key (top) layer, middle portion as inferior, and a spongy porous fragment as...

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Veröffentlicht in:International wound journal 2023-03, Vol.20 (3), p.687-698
Hauptverfasser: Yang, Minlie, Yu, Shun, Zhao, Peng, Shi, Gaofeng, Guo, Yun, Xie, Longwei, Lyu, Guozhong, Yu, Junjie
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Sprache:eng
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Zusammenfassung:A triple‐layer matrix Collagen/Silk fibroin/Bioactive glass composited Nanofibrous was fabricated by linking electrospinning and freeze‐drying systems, this typical three layered composite with a nanofibrous fragment as the key (top) layer, middle portion as inferior, and a spongy porous fragment as the third (bottom) deposit to develop the synergistic effect of composite materials resultant to physical and biological performances. Fourier transform infrared spectroscopy (FTIR) and scanning electron microscopy were used to assess the final material's physicochemical properties (SEM). The triple‐layer matrix had a nanofibrous and porous structure, which has qualities including high porosity, swelling, and stability, which are important in soft‐tissue engineering. NIH 3 T3 fibroblast and humanoid keratinocyte (HaCaT) cell lines were also used to investigate the matrix's in vitro biological and fluorescent capabilities, which showed excellent cell adherence and proliferation across the composite layers. The synergistic arrangement of nanofibrous substantial deposition onto collagenous with silk fibroin candidates has therefore proven effective in the construction of a tri‐layer matrix for skin‐tissue‐engineering applications.
ISSN:1742-4801
1742-481X
DOI:10.1111/iwj.13910