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Thrombin immobilized polydopamine–diatom biosilica for effective hemorrhage control

Yuzhi Mu, Yangmu Fu, Jing Li, Kai Shao, Jianhui Pang, Chang Su, Yibo Cai, Xiaojie Sun, Xin Cong, Xiguang Chen, Chao Feng

2021Biomaterials Science35 citationsDOI

Abstract

In this study, an efficient composite hemostatic material (DA-diatom-T) was prepared, using a polydopamine layer as a linker to immobilize thrombin on the surface of diatom biosilica. DA-diatom-T retained the porous structure of the diatom with high water absorption capacity, which can absorb 31 times its own weight of water. The thrombin activity of DA-diatom-T was as high as 5.81 U mg-1 that could be maintained at 67% after 30 days at room temperature. DA-diatom-T exhibited non-toxicity to mouse fibroblast cell lines, favorable hemocompatibility and fast procoagulant ability. DA-diatom-T could promote the initiation of the coagulation process and increase platelet activity and blood clot strength to form a physical barrier at the wound. In an in vivo study, DA-diatom-T could significantly reduce the clotting time and reduce the bleeding volume. The above results showed that DA-diatom-T had potential as a new hemostatic material.

Topics & Concepts

DiatomThrombinHemostatic AgentChemistryLinkerBiophysicsChemical engineeringPlateletHemostasisSurgeryBiologyMedicineComputer scienceImmunologyBotanyEngineeringOperating systemHemostasis and retained surgical itemsTrauma, Hemostasis, Coagulopathy, ResuscitationPolymer Surface Interaction Studies
Thrombin immobilized polydopamine–diatom biosilica for effective hemorrhage control | Litcius