生物相容性
钙
伤口愈合
西红花酸
透明质酸
自愈水凝胶
皮肤修复
化学
经皮失水
生物医学工程
生物化学
医学
角质层
高分子化学
类胡萝卜素
外科
解剖
有机化学
病理
作者
Li Wang,MA Xue-mei,Yanan Pan,Haoxiang Ye,Zike Liu,Zaoyuan Kuang,Zhongxiang Zhao,Aijun Liu,Yuxing Ji
标识
DOI:10.1002/asia.202400198
摘要
The ideal and highly anticipated dressing for skin wounds should provide a moist environment, possess antibacterial properties, and ensure sustained drug release. In the present work, a hyaluronic acid-based hydrogel was formed by cross-linking crocetin and CaCO3@polyelectrolyte materials (CaCO3@PEM) microspheres with HA hydrogels via hydrogen bond and amido bonding (CaCO3@PEM@Cro@HA hydrogel, CPC@HA hydrogel). Moreover, the CPC@HA hydrogel had the capability of sustained, controlled release of calcium ions and crocetin via pH-sensitive and accelerated skin wound healing. The experiment results showed that the CPC@HA hydrogel exhibited porous network structures, stable physical properties, and had antibacterial properties and biocompatibility in vitro. In addition, the CPC@HA hydrogel covering on the skin wound could reduce inflammation and promote wound healing. The high expression of angiogenic cytokines (CD31) and epidermal terminal differentiation markers (Loricrin) of wound healing tissue suggested the CPC@HA hydrogel also had the function of promoting the remodeling of regenerated skin. Overall, CPC@HA hydrogel has promising potential for clinical applications in accelerating skin wound repair.
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