Materials & Design (Nov 2022)
Preparation and hemostatic mechanism of bioactive glass-based membrane-like structure camouflage composite particles
Abstract
Powder hemostatic particles have no limitation on wound type and a wide application prospect in the treatment of wound hemostasis. In this study, bioactive glass-based membrane-like structure camouflage composite particles (MBG@BSA/CS) were prepared by Layer-by-layer (LBL) method to coat bovine serum albumin (BSA) and chitosan (CS) on the surface of the synthesized macroporous and mesoporous bioactive glass (MBG). The results showed that MBG@BSA/CS particles significantly improved the coagulation effect of MBG and could activated both endogenous and exogenous physiological coagulation pathways. MBG@BSA/CS had the excellent water absorption quality and could immediately release Ca2+ to participate in the coagulation pathway. The main hemostatic mechanism of MBG@BSA/CS was that the membrane-like of BSA/CS could form a fibrin network by aggregating erythrocytes and activating platelets, thus rapidly aggregating coagulation factors. In addition, MBG@BSA/CS particles had a significant hemostatic effect on surface bleeding (tail-amputation model) and internal bleeding (liver injury model) in SD rats, which could shorten the bleeding time and reduce the amount of blood loss effectively. This research work stated that the MBG-based membrane-like structure camouflage composite particles might be with the potential applications as a hemostasis biomaterial for the emergency bleeding.
