Chitosan-Based Composite Aerogel with a Rapid Tissue Hydration Layer-Triggered Response to Promote Hemostasis

Aerogels exhibit poor adhesion to wet tissue surfaces, which is a significant factor that limits their hemostatic properties. In this work, we propose a new method for investigating aerogel hemostatic materials by introducing the concept of the 'rapid tissue hydration layer-triggered property' into the hemostatic material. A chitosan derivative (Csde) with a "swollen property" was prepared via an amide reaction, followed by the incorporation of the extracted bletilla striata complex (Bscai) into the chitosan derivative to fabricate the Bscai/Csde hemostatic material. The research results indicated that the Bscai/Csde hemostatic material exhibited a rapid tissue hydration layer-triggered response, outstanding hemostasis ability, as well as excellent hemocompatibility, antibacterial properties, and cytocompatibility. Additionally, the preparation method for the Bscai/Csde hemostatic material is straightforward, and the raw materials are readily available. Therefore, this study presents a novel method for developing a hemostatic material method, and the composite aerogel hemostatic material demonstrates considerable potential for future applications.