光热治疗
生物相容性
止血
化学
凝结
部分凝血活酶时间
纤维蛋白
涂层
氧化物
生物医学工程
凝血活酶
纳米技术
光热效应
凝血酶
金黄色葡萄球菌
材料科学
血小板活化
抗菌活性
血小板
生物物理学
凝血酶原时间
组织因子
内皮干细胞
作者
Haishui Jiang,Marziya Amantay,Xiaohui Tang,Henigul Osman,Tao Jiang,Yingbo Wang
标识
DOI:10.1002/admt.202501048
摘要
Abstract This study develops a multifunctional hemostatic material, Polydopamine‐loaded L‐aspartic acid/Graphene Oxide (PDA@L‐Asp/GO), using dynamic self‐assembly. The material integrates efficient hemostasis and photothermal antibacterial properties. By optimizing graphene oxide (GO) concentration (40 mg·L −1 ), it achieves a high negative potential of −48.06 mV, activating coagulation factor XII and significantly reducing prothrombin time (PT:12.3 s) and activated partial thromboplastin time (APTT:25.8 s). Its “adhesion‐release” mechanism enables rapid hemostasis through fibrin crosslinking, followed by sustained release of active components. Upon 808 nm NIR light excitation, the material exhibits a photothermal effect (52.9 °C, 32.5% efficiency) and generates reactive oxygen species (ROS) to achieve 100% sterilization of Escherichia coli and Staphylococcus aureus. In vitro, studies show excellent biocompatibility with >95% endothelial cell viability and <5% hemolysis. A mouse femoral vein model demonstrated significant bleeding reduction without tissue damage. This material's synergistic mechanisms—physical barrier formation, coagulation activation, and photothermal antibacterial activity—enhance hemostatic performance, offering potential for battlefield trauma and minimally invasive surgeries.
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