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A self-hygroscopic, rapidly self-gelling polysaccharide-based sponge with robust wet adhesion for non-compressible hemorrhage control and infected wounds healing

Xiongxin Lei, Menglong Liu, Chaofeng Lü, Lili Han, Jiezhi Jia, Zhizhong Li, Na Xu, Jiangfeng Li, Xiaping Fu, Yabin Jin, Rikuan Tong, Yunlong Yu, Gaoxing Luo, Yang Chen

2024Bioactive Materials25 citationsDOIOpen Access PDF

Abstract

Uncontrollable non-compressible hemorrhage and traumatic infection have been major causes of mortality and disability in both civilian and military populations. A dressing designed for point-of-care control of non-compressible hemorrhage and prevention of traumatic infections represents an urgent medical need. Here, a novel self-gelling sponge OHN@ε-pL is developed, integrating N-succinimidyl ester oxidized hyaluronic acid (OHN) and ε-poly-L-lysine (ε-pL). Upon application to the wound site, the sponge can rapidly absorb interfacial fluids and undergo a phase transition from sponge to gel. The transformed gel facilitates robust tissue adhesion and achieves synergistic hemostasis by enriching coagulation factors within the sponge phase and providing a barrier effect in the gel phase. The in vitro and in vivo studies revealed that the optimized OHN@ε-pL 3 sponge possesses self-gelling capability, tissue adhesion, enhanced coagulation ability, and exhibits excellent biocompatibility and antibacterial efficacy. In hemostasis, OHN@ε-pL 3 sponges exhibited reduced blood loss and decreased hemostatic time compared to commercial hemostatic agents, as demonstrated in rat liver, femoral vein, and tail truncation bleeding models. Furthermore, the OHN@ε-pL 3 sponge exhibited superior performance in accelerating wound closure and healing of S. aureus -infected wounds. Collectively, OHN@ε-pL sponges represent a promising candidate for medical dressings, specifically for managing uncontrollable non-compressible hemorrhage and traumatic infections. A self-gelling sponge (OHN@ε-pL 3 ) developed by compounding N-succinimidyl easter oxidized hyaluronic acid (OHN) with ε-poly-L-lysine (ε-pL) can self-gel upon absorbing blood and then seal the wound, thereby exerting hemostatic and pro-coagulation performance. The superior antibacterial properties of the OHN@ε-pL 3 gel also help to alleviate wound inflammation, promote collagen deposition, and enhance angiogenesis, thereby accelerating the healing of infected wounds. • A self-hygroscopic, fast-gelling polysaccharide sponge with strong wet adhesion has been developed. • The sponge transforms into an adhesive gel when it contacts blood or water-based fluids. • The sponge enhances coagulation and antibacterial processes, improving hemostasis and aiding infected wound healing.

Topics & Concepts

SpongeAdhesionMaterials scienceSelf-healingChemical engineeringBiomedical engineeringComposite materialNanotechnologyMedicineBiologyPathologyAlternative medicineBotanyEngineeringHemostasis and retained surgical itemsHydrogels: synthesis, properties, applications3D Printing in Biomedical Research
A self-hygroscopic, rapidly self-gelling polysaccharide-based sponge with robust wet adhesion for non-compressible hemorrhage control and infected wounds healing | Litcius