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Promotion of Wound Healing Using Nanoporous Silk Fibroin Sponges

丝素 材料科学 伤口愈合 生物相容性 生物医学工程 海绵 脚手架 生物材料 体内 吸光度 丝绸 纳米技术 复合材料 化学 外科 医学 色谱法 冶金 生物技术 生物 植物
作者
Jian Liu,Xusheng Xie,Tao Wang,Hao Chen,Yuhang Fu,Xinyu Cheng,Jianbing Wu,Gang Li,Chenming Liu,Henrikki Liimatainen,Zhaozhu Zheng,Xiaoqin Wang,David L. Kaplan
出处
期刊:ACS Applied Materials & Interfaces [American Chemical Society]
卷期号:15 (10): 12696-12707 被引量:87
标识
DOI:10.1021/acsami.2c20274
摘要

Wound dressings are important for wound repair. The morphology of the biomaterials used in these dressings, and in particular, the pore structure affects tissue regeneration by facilitating attachment and proliferation of cells due to the hierarchical multiscale, water absorbance, and nutrient transport. In the present study, silk fibroin (SF) sponges with walls containing nanopores (SFNS) were prepared from SF nanoparticles generated during the autoclaving of SF solutions, followed by leaching the SF nanoparticles from the freeze-dried sponges of SF. The nano/microporous structure, biofluid absorbance, and porosity of the SF sponges with and without nanopores were characterized. In vitro cell proliferation, in vivo biocompatibility, and wound healing were evaluated with the sponges. The results demonstrated that SFNS had significantly increased porosity and water permeability, as well as cell attachment and proliferation when compared with SF sponges without the nanopores (SFS). Wound dressings were assessed in a rat skin wound model, and SFNS was superior to SFS in accelerating wound healing, supported by vascularization, deposition of collagen, and increased epidermal thickness over 21 days. Hence, such a dressing material with a hierarchical multiscale pore structure could promote cell migration, vascularization, and tissue regeneration independently without adding any growth factor, which would offer a new strategy to design and engineer better-performed wound dressing.
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