Advanced Science (Nov 2020)
Biomass‐Derived Multilayer‐Structured Microparticles for Accelerated Hemostasis and Bone Repair
Abstract
Abstract It is very desirable to develop advanced sustainable biomedical materials with superior biosafety and bioactivity for clinical applications. Herein, biomass‐derived multilayer‐structured absorbable microparticles (MQxTy) composed of starches and plant polyphenols are readily constructed for the safe and effective treatment of bone defects with intractable bleeding by coating multiple layers of quaternized starch (Q+) and tannic acid onto microporous starch microparticles via facile layer‐by‐layer assembly. MQxTy microparticles exhibit efficient degradability, low cytotoxicity, and good blood compatibility. Among various MQxTy microparticles with distinct Q+/T− double layers, MQ2T2 with outmost polyphenol layer possess the unique properties of platelet adhesion/activation and red blood cell aggregation, resulting in the best hemostatic performance. In a mouse cancellous‐bone‐defect model, MQ2T2 exhibits the favorable hemostatic effect, low inflammation/immune responses, high biodegradability, and promoted bone repair. A proof‐of‐concept study of beagles further confirms the good performance of MQ2T2 in controlling intractable bleeding of bone defects. The present work demonstrates that such biomass‐based multilayer‐structured microparticles are very promising biomedical materials for clinical use.
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