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Antibacterial Sericin Cryogels Promote Hemostasis by Facilitating the Activation of Coagulation Pathway and Platelets

Yuanyuan Zhu, Huan Liu, Sumei Qin, Chengfeng Yang, Qiying Lv, Zheng Wang, Lin Wang

2022Advanced Healthcare Materials53 citationsDOI

Abstract

Cryogels, with high water/blood absorption, have great potential for rapid hemostasis. In this study, a hemostatic and antibacterial sericin-methacryloyl/Ag cryogel (SMC@Ag) based on freeze polymerization of methacryloyl-modified sericin and in situ reduction of silver ions is developed. The combination of interconnected micropores and Ag NPs endows the cryogel with high water/blood absorption, and outstanding hemostatic and antibacterial performance. SMC@Ag shows much better hemostatic performance than the commercial gelatin sponge in rat liver injury, tail amputation, and femoral artery injury models. Furthermore, the excellent hemostatic activity of SMC@Ag is due to facilitating the coagulation pathway activation and enhancing the platelets adhesion during coagulation process. Overall, SMC@Ag cryogel with excellent hemostatic and antibacterial performance is a suitable candidate for traumatic hemorrhage and wound healing.

Topics & Concepts

SericinHemostasisCoagulationPlateletPlatelet activationAntibacterial activityWound healingMaterials scienceHeparinChemistryMedicineBiochemistrySurgeryImmunologyBacteriaComposite materialBiologyPsychiatrySILKGeneticsHemostasis and retained surgical itemsSurgical Sutures and AdhesivesTrauma, Hemostasis, Coagulopathy, Resuscitation
Antibacterial Sericin Cryogels Promote Hemostasis by Facilitating the Activation of Coagulation Pathway and Platelets | Litcius