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Antibiotic-eluting scaffolds with responsive dual-release kinetics facilitate bone healing and eliminate S. aureus infection

庆大霉素 材料科学 万古霉素 骨髓炎 脚手架 抗生素 金黄色葡萄球菌 药物输送 生物医学工程 骨感染 微生物学 医学 免疫学 细菌 生物 纳米技术 遗传学
作者
Eamon J. Sheehy,Christian von Deimling,Emily J. Ryan,Amro Widaa,Peter O' Donnell,Alan J. Ryan,Gang Chen,Robert Thomas Brady,Adolfo López‐Noriega,Stephan Zeiter,T. Fintan Moriarty,Fergal J. O’ Brien
出处
期刊:Biomaterials [Elsevier BV]
卷期号:313: 122774-122774 被引量:28
标识
DOI:10.1016/j.biomaterials.2024.122774
摘要

Osteomyelitis (OM) is a progressive, inflammatory infection of bone caused predominately by Staphylococcus aureus. Herein, we engineered an antibiotic-eluting collagen-hydroxyapatite scaffold capable of eliminating infection and facilitating bone healing. An iterative freeze-drying and chemical crosslinking approach was leveraged to modify antibiotic release kinetics, resulting in a layered dual-release system whereby an initial rapid release of antibiotic to clear infection was followed by a sustained controlled release to prevent reoccurrence of infection. We observed that the presence of microbial collagenase accelerated antibiotic release from the crosslinked layer of the scaffold, indicating that the material is responsive to microbial activity. As exemplar drugs, vancomycin and gentamicin-eluting scaffolds were demonstrated to be bactericidal, and supported osteogenesis in vitro. In a pilot murine model of OM, vancomycin-eluting scaffolds were observed to reduce S. aureus infection within the tibia. Finally, in a rabbit model of chronic OM, gentamicin-eluting scaffolds both facilitated radial bone defect healing and eliminated S. aureus infection. These results show that antibiotic-eluting collagen-hydroxyapatite scaffolds are a one-stage therapy for OM, which when implanted into infected bone defects simultaneously eradicate infection and facilitate bone tissue healing.

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