止血
材料科学
明胶
粘附
股动脉
自愈水凝胶
机械强度
生物医学工程
动脉
胶粘剂
组织粘连
原位
复合材料
生物材料
止血剂
抗压强度
伤口愈合
组织工程
血小板粘附
缓冲器(光纤)
固化(化学)
血管
作者
Zhiguang Sun,Xiudan Wang,Jisen Li,Yuyan Zhang,Xinran Yang,Lizong Tang,Xiaoqin Guo,Haojun Fan,Wen Li,Xing Gao,Jie Shi,Shike Hou,Qi Lv
标识
DOI:10.1021/acsami.5c15336
摘要
Hemostatic materials often fail under severe hemorrhage, such as cardiac and femoral artery rupture conditions. Enhancement of adhesion and mechanical properties can effectively address the above challenges. In this study, we report an in situ ultraviolet light cross-linked and chemical cross-linked hydrogel system (GMOSBS) composed of methacryloylated gelatin (GelMA) and oxidized sodium alginate (OSA), forming a dual-cross-linked network via UV curing and Schiff base reactions. The incorporation of tannic acid (TA) imparts antimicrobial activity and prevents unwanted tissue adhesion through the TA-Ca2+ complexation. GMOSBS exhibits excellent adhesive strength (39.44 kPa) and mechanical stiffness (Young’s modulus: 2451.21 kPa). In the rat model, GMOSBS effectively sealed bleeding cardiac and femoral artery wounds, significantly reducing blood loss and hemostatic time, achieving hemostasis in 77.8 ± 5.7 s for cardiac rupture and in 76.8 ± 5.1 s for femoral artery injury. These findings underscore the promising potential of GMOSBS as a life-saving material for rapid emergency hemostasis.
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