Litcius/Paper detail

Liquid-infused microstructured bioadhesives halt non-compressible hemorrhage

Guangyu Bao, Qiman Gao, Massimo F. Cau, Nabil Ali-Mohamad, Mitchell Strong, Shuaibing Jiang, Zhen Yang, Amin Valiei, Zhenwei Ma, Marco Amabili, Zu‐Hua Gao, Luc Mongeau, Christian J. Kastrup, Jianyu Li

2022Nature Communications102 citationsDOIOpen Access PDF

Abstract

Non-compressible hemorrhage is an unmet clinical challenge that accounts for high mortality in trauma. Rapid pressurized blood flows under hemorrhage impair the function and integrity of hemostatic agents and the adhesion of bioadhesive sealants. Here, we report the design and performance of bioinspired microstructured bioadhesives, formed with a macroporous tough xerogel infused with functional liquids. The xerogel can rapidly absorb interfacial fluids such as whole blood and promote blood clotting, while the infused liquids facilitate interfacial bonding, sealing, and antibacterial function. Their synergy enables the bioadhesives to form tough adhesion on ex vivo human and porcine tissues and diverse engineered surfaces without the need for compression, as well as on-demand instant removal and storage stability. We demonstrate a significantly improved hemostatic efficacy and biocompatibility in rats and pigs compared to non-structured counterparts and commercial products. This work opens new avenues for the development of bioadhesives and hemostatic sealants.

Topics & Concepts

BioadhesiveHemostasisBiomedical engineeringIn vivoHemostatic AgentMaterials scienceBlood clottingBiocompatibilityEx vivoNanotechnologyMedicineDrug deliverySurgeryBiotechnologyMetallurgyBiologyHemostasis and retained surgical items3D Printing in Biomedical ResearchPolymer Surface Interaction Studies