Cationic superabsorbent hydrogel composed of mesoporous silica as a potential haemostatic material
Yi-Fan Shen, Jing-Huan Huang, Ze-En Wu, Kai-Yang Wang, Jin Zheng, Lin Cai, Xiao-Lin Li, Hong Gao, Xiang-Yun Jin, Jing-Feng Li
Journal:Materials Science & Engineering C-Materials for Biological Applications
IF:5.88
DOI:10.1016/j.msec.2020.110841
PMID:32279816
Published:2020-03-12
research field:细胞外囊泡免疫学生殖医学再生生物学纳米医学
Abstract
The control of massive bleeding and its related wound infection is the main challenge for both military and civilian trauma centres. In this study, a cationic superabsorbent hydrogel coordinated by mesoporous silica (CSH-MS) was synthesized by free-radical polymerization for both haemostasis and antibacterial use. The as-prepared CSH-MS has a rough surface, and its water absorption is approximately 5000%. The resultant CSH-MS1 could promote blood cell aggregation and facilitate plasma protein activation via haemadsorption, resulting in efficient blood clot formation. Furthermore, CSH-MS1 (with approximately 5.06% contents of MS) dramatically reduces bleeding time and reduces blood loss in a rat-tail amputation model. Moreover, the CSH-MSs exhibits good antibacterial activities, excellent cytocompatibility and negligible haemolysis. Therefore, CSH-MS can serve as a novel type of haemostatic material in clinical applications.
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