伤口愈合
生物相容性
自愈水凝胶
壳聚糖
单宁酸
材料科学
体内
生物医学工程
血管生成
疤痕
纳米颗粒
细胞外基质
纳米技术
化学
外科
医学
高分子化学
生物化学
癌症研究
生物技术
有机化学
冶金
生物
作者
Yongjun Huang,Yong Chen,Guoyun Cheng,Wenqiang Li,Hongan Zhang,Chaoqun Yu,Fang Jia,Jieyi Zuo,Ying Li,Lei Xu,Dawei Sun
摘要
Background: As the first line of immune defense and the largest organ of body, skin is vulnerable to damage caused by surgery, burns, collisions and other factors. Wound healing in the skin is a long and complex physiological process that is influenced by a number of different factors. Proper wound care can greatly improve the speed of wound healing and reduce the generation of scars. However, traditional wound dressings (bandages, gauze, etc.) often used in clinical practice have a single function, lack of active ingredients and are limited in use. Hydrogels with three-dimensional network structure are a potential biomedical material because of their physical and chemical environment similar to extracellular matrix. In particular, hydrogel dressings with low price, good biocompatibility, degradability, antibacterial and angiogenic activity are favored by the public. Methods: Here, a carboxymethyl chitosan-based hydrogel dressing (CMCS-TA/Cu 2+ ) reinforced by copper ion crosslinked tannic acid (TA/Cu 2+ ) nanoparticles was developed. This study investigated the physical and chemical characteristics, cytotoxicity, and angiogenesis of TA/Cu 2+ nanoparticles and CMCS-TA/Cu 2+ hydrogels. Furthermore, a full-thickness skin defect wound model was employed to assess the in vivo wound healing capacity of hydrogel dressings. Results: The introduction of TA/Cu 2+ nanoparticles not only could increase the mechanical properties of the hydrogel but also continuously releases copper ions to promote cell migration (the cell migration could reach 92% at 48 h) and tubule formation, remove free radicals and promote wound healing (repair rate could reach 90% at 9 days). Conclusion: Experiments have proved that CMCS-TA/Cu 2+ hydrogel has good cytocompatibility, antioxidant and wound healing ability, providing an advantageous solution for skin repair. Keywords: TA/Cu 2+ nanoparticles, carboxymethyl chitosan, wound dressing, antioxidant activity
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