A super hydrophilic and high strength chitosan hemostatic sponge prepared by freeze-drying and alkali treatment for rapid hemostasis

Abstract

Excessive blood loss caused by natural accidents or major surgical procedures can be life-threatening and requires rapid hemorrhage management. Developing hemostatic materials with high water absorption capacity and high strength properties is still challenging. Super hydrophilic/high-strength chitosan hemostatic sponges (SHHS-CHS) were prepared by freeze-drying and alkali treatment. The freeze-drying technology formed a porous three-dimensional structure of sponges, and alkali treatment increased the hydrophilicity of sponges and the rigidity of the chitosan molecular chain, improving the hydrophilicity and mechanical properties of chitosan sponges. Characterization experiments revealed that SHHS-CHS had high water absorption capacity, rich pore structure, and excellent mechanical properties. The cytotoxicity and hemolysis experiments showed that SHHS-CHS had good biocompatibility. Compared to the commercial hemostatic gelatin sponges and chitosan hemostatic material, SHHS-CHS had better blood coagulation and red blood cell and platelet adhesion ability. Moreover, SHHS-CHS showed better hemostatic ability than gelatin sponges in rat-liver injury and rat leg vein rupture models, significantly reducing the hemostasis time and bleeding volume. In conclusion, SHHS-CHS has broad prospects for clinical application as a hemostatic material.