透皮
生物相容性
自愈水凝胶
伤口愈合
化学
聚乙烯醇
灭菌(经济)
离子键合
螯合作用
铜
聚合物
聚合
水溶液中的金属离子
高分子化学
化学工程
金属
离子
有机化学
药理学
外科
经济
外汇市场
货币经济学
工程类
医学
外汇
作者
Yiru Gao,Wenxin Zhang,Yanan Wei,You Li,Teng Fei,Yang Shu,Jianhua Wang
摘要
Antibacterial hydrogel dressings play an important role in wound healing and infection treatment. The majority of hydrogels are obtained through chemical cross-linking and complex synthesis or processing. Copper ions (Cu2+) have been involved in sterilization; however, their direct use may lead to high local concentrations and heavy metal toxic side effects. Herein, dopamine (DA) was polymerized in situ along a polyvinyl alcohol (PVA) chain and chelated copper ions (Cu2+) to form a mixture. Ionic liquid (IL) choline-glycolate (CGLY) was added to the mixture to form an ionic gel. CGLY promotes gel formation through intermolecular hydrogen bonds with the polymer chains and avoids the use of toxic chemical crosslinking agents. Meanwhile, CGLY can also promote the release of Cu2+ and generate hydrogel free radicals (˙OH) in the wound through chemodynamic therapy to kill drug-resistant bacteria. In addition, the excellent transdermal property of CGLY enables the released Cu2+ to stimulate cell migration and accelerate wound healing. The gel exhibits favorable biocompatibility and its use has been demonstrated in skin infection therapy of mice.
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