化学
伤口愈合
酰胺
血管生成
硫化氢
生物物理学
凝结
双金属片
生物医学工程
控制释放
生物化学
纳米技术
作者
Shufan Wan,Limei Zhao,Lei Dai,Jinming Fang,Rongxian Bai,Yiyun Jiang,Bin Zou,Jiangtao Su,Hongmei Sun
摘要
ABSTRACT Wound healing is a complex physiological process with different demands at different stages. In this work, a pH‐responsive GA/Gelatin/ZnS (Glycyrrhizic Acid/Gelatin/Zinc Sulfide) hydrogel that can automatically release drugs was constructed in a facile way. It was fabricated by amide bonds, hydrogen bonds, and metal ion coordination among ZnS nanoparticles, glycyrrhizic acid (GA), and gelatin, which was confirmed by the molecular dynamics (MD) simulations and characterization results. Taking advantage of the pathological microenvironments at the wound site, it can synergize with multi‐substance therapies at different stages, thus promoting wound healing. The as‐prepared hydrogel can not only exhibit excellent coagulation ability in the hemostatic phase, but also release zinc ion (Zn 2+ ) and hydrogen sulfide (H 2 S) due to the weak acid microenvironment at the wound site, thus boosting inflammatory stage to proliferative phase. Meanwhile, benefit from its good re‐epithelialization and angiogenesis properties in proliferative phase, the as‐prepared hydrogel can increase collagen deposition during the remodeling phase, thereby accelerating wound healing. It would open a new perspective for effective wound management.
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