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Nature‐Derived Okra Gel as Strong Hemostatic Bioadhesive in Human Blood, Liver, and Heart Trauma of Rabbits and Dogs

Yu Huang, Chaoqiang Fan, Yuqing Liu, Lu Yang, Weichao Hu, Shuang Liu, Tongchuan Wang, Zhenzhen Shu, Bingyun Li, Malcolm Xing, Shiming Yang

2022Advanced Healthcare Materials40 citationsDOI

Abstract

Bioadhesive performance can be compromised due to bleeding. Bleeding increases mortality. Adhesives with hemostatic function are of great significance. A sustainable and robust hemostatic bioadhesive from okra is reported. The adhesive strength reaches around three and six-fold higher than commercial fibrin on pigskin and glass, respectively. The okra gel presents high-pressure resistance and great underwater adhesive strength. In human blood experiments, the okra gel can activate platelets, enhance the adhesion of activated platelets, and release coagulation factors XI and XII. By forming a fast gel layer and closely adhering to the wound, it can quickly stop bleeding in the liver and heart of rabbits and dogs. Meanwhile, okra gel can cause platelet activation at the wound site and further strengthen its hemostatic performance. It is biocompatible, biodegradable, and can promote wound healing and shows potential as a sustainable bioadhesive, especially in the scenario of significant hemorrhage.

Topics & Concepts

BioadhesiveHemostasisFibrinPlateletAdhesiveWound healingCoagulationAdhesionMedicinePharmacologySurgeryMaterials scienceInternal medicineImmunologyNanotechnologyComposite materialLayer (electronics)Drug deliveryHemostasis and retained surgical itemsSurgical Sutures and AdhesivesPolymer Surface Interaction Studies
Nature‐Derived Okra Gel as Strong Hemostatic Bioadhesive in Human Blood, Liver, and Heart Trauma of Rabbits and Dogs | Litcius