没食子酸
自愈水凝胶
烧伤
生物医学工程
钙
缺氧(环境)
材料科学
过氧化物
烧伤
氧化应激
外科
伤口愈合
纳米颗粒
抗氧化剂
胶粘剂
丙烯酰胺
化学
作者
Shengxi Jiang,Yujia Zheng,Peiji Yang,Huabin Liu,Wei Zhang,Yanan Jiang,Liwei Yan,Jie Weng,Feng Lin,Hongyu Sun,Xiong Lu,Chaoming Xie
摘要
High-altitude environments, characterized by low temperatures, hypoxia, low atmospheric pressure, and intense ultraviolet (UV) radiation, significantly increase the mortality rate among burn patients. Current wound dressings are inadequate to address the multifaceted challenges posed by these extreme conditions. In this study, we developed an antifreeze, adhesive, UV-resistant and oxygen-releasing hydrogel based on gallic acid mediated gelatin/amylopectin and ZIF-8 encapsulated calcium peroxide. The phenolic hydroxyl group of gallic acid in the hydrogel network enhanced the antifreeze, adhesive and UV-resistant properties of the hydrogel, which meets the demand of serving in the extreme environment of high-altitude. In addition, its reduced phenolic hydroxyl group conferred the hydrogel with good antioxidant properties and anti-inflammatory activity. ZIF-8 encapsulated calcium peroxide nanoparticles not only exhibited antibacterial activity, but also slowly and continuously released oxygen, alleviating hypoxia in wounds, inducing macrophage polarization to the M2 phenotype, promoting vascular and nerve regeneration, and accelerating wound healing. This hydrogel represents a significant advancement in burn wound treatment for high-altitude environments, offering a novel approach to improving clinical outcomes under extreme conditions.
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