硫脲
材料科学
螯合作用
伤口敷料
伤口愈合
自愈水凝胶
生物医学工程
组合化学
纳米技术
核化学
高分子化学
医学
冶金
有机化学
外科
复合材料
化学
作者
Weilin Meng,Ze Lin,Xuan Chen,Sheng Gou,Rong Wang,Pengzhen Bu,Yan Li,Bobin Mi,Yongsheng Yu,Feng Qian,Kaiyong Cai
标识
DOI:10.1002/adfm.202314202
摘要
Abstract For various chronic wounds, bacterial infection is one of the important reasons that hinder their healing. Ion‐crosslinked antibacterial hydrogel dressings based on Ag + , Cu 2+ and Zn 2+ , have made progress in clinical application. However, the toxicity of released metal ions cannot be ignored. Therefore, how to ensure the antibacterial performance of hydrogel dressing while reducing the amount of metal ions is a major challenge for the fabrication of metal ion based antibacterial hydrogel. In this study, a general method is proposed to design cationic ion‐crosslinked hydrogel based on thiourea groups. Taking the hydrogel formed by mixing thiourea modified hyaluronic acid (H‐ANCSN) with Ag + (HA‐NCSN/Ag + hydrogel) as an example, the characteristics and application potential of this kind of hydrogel are thoroughly explored. Due to the strong cationic chelation characteristics of thiourea groups, HA‐NCSN/Ag + hydrogel can gel at low Ag + concentration and achieve long‐term slow release of Ag + at stable concentration to balance the antibacterial and biocompatible properties. Moreover, this dynamic thiourea‐Ag + crosslinking also endowed the hydrogel with the property of “gelation and encapsulation first, injection to cover wound when necessary”. Then, the mangiferin self‐assembled nanoparticles are loaded into HA‐NCSN/Ag + hydrogel as the radical oxygen species scavenger.
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