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Mussel‐ and Barnacle Cement Proteins‐Inspired Dual‐Bionic Bioadhesive with Repeatable Wet‐Tissue Adhesion, Multimodal Self‐Healing, and Antibacterial Capability for Nonpressing Hemostasis and Promoted Wound Healing

Gaoxing Pan, Feihan Li, Shaohua He, Weidong Li, Quanming Wu, Jingjing He, Renjie Ruan, Zhixiang Xiao, Jin Zhang, Huanghao Yang

2022Advanced Functional Materials262 citationsDOI

Abstract

Abstract Massive bleeding and wound infection are the major problems often observed during severe trauma, and achieving rapid hemostasis in cases of high‐dose bleeding in arteries and viscera remains an acute clinical demand. Herein, a mussel‐ and barnacle cement proteins‐inspired dual‐bionic hydrogel is first proposed. Benefiting from abundant phenolic hydroxyl groups, a tough dissipative matrix, removal of interfacial water, as well as dynamic redox balance of phenol‐quinone, the multinetwork hydrogel achieves repeatable robust wet‐tissue adhesiveness (151.40 ± 1.50 kPa), a fast multimodal self‐healing ability, and excellent antibacterial property against both Gram‐positive/negative bacteria. For rabbit/pig models of cardiac penetration holes and femoral artery injuries, the dual‐bionic bioadhesive shows better hemostatic efficiency than commercial gauze due to the synergistic effect of strong wound sealing capability, excellent red blood cell capturing property, and activation of hemostatic barrier membrane. More interestingly, the hydrogel combined with commercial hemostatic sponge presents accelerated wound healing as well as great potential for treating deep‐wound hemorrhage in a battlefield environment. Overall, owing to these unique advantages, the novel tissue‐adhesive hemostat opens up a new avenue to rapid sealing hemostasis and wound healing applications.

Topics & Concepts

BioadhesiveWound healingHemostasisMaterials scienceBiomedical engineeringHemostatic AgentTissue AdhesionAdhesionSurgeryNanotechnologyMedicineDrug deliveryComposite materialHemostasis and retained surgical itemsSurgical Sutures and AdhesivesElectrospun Nanofibers in Biomedical Applications
Mussel‐ and Barnacle Cement Proteins‐Inspired Dual‐Bionic Bioadhesive with Repeatable Wet‐Tissue Adhesion, Multimodal Self‐Healing, and Antibacterial Capability for Nonpressing Hemostasis and Promoted Wound Healing | Litcius