Triple-functional polyetheretherketone surface with enhanced bacteriostasis and anti-inflammatory and osseointegrative properties for implant application

偷看 骨整合 表面改性 材料科学 体内 生物医学工程 间充质干细胞 生物相容性 生物活性玻璃 脂质体 植入 复合材料 纳米技术 化学工程 医学 聚合物 外科 细胞生物学 生物 生物技术 冶金 工程类
作者
Xiaoxue Xu,Yongliang Li,Lixin Wang,Yan Li,Jijia Pan,Xiaoming Fu,Zuyuan Luo,Yi Sui,Siqi Zhang,Liang Wang,Yaofeng Ni,Lei Zhang,Shicheng Wei
出处
期刊:Biomaterials [Elsevier BV]
卷期号:212: 98-114 被引量:186
标识
DOI:10.1016/j.biomaterials.2019.05.014
摘要

Polyetheretherketone (PEEK) is considered a potential orthopedic/dental material because of its excellent mechanical and chemical properties (e.g., similar elastic modulus to that of human bone). However, the poor bacteriostasis and anti-inflammatory and osseointegrative properties of bioinert PEEK impede its clinical application. We previously developed a facile and versatile surface modification method using dexamethasone plus minocycline-loaded liposomes (Dex/Mino liposomes) bonded by a mussel-inspired polydopamine coating, which effectively modulated cell inflammatory response and discouraged bacterial colonization in vitro. Herein, we report the application of this multifunctional surface modification method to improve bioinert PEEK, aimed at further studying the in vitro osteogenesis and in vivo properties of Dex/Mino liposome-modified PEEK to prevent bacterial contamination, attenuate the inflammatory response, and enhance ossification for physiologic osseointegration. Our study established that the Dex/Mino liposome-modified PEEK surface presented favorable stability and cytocompatibility. Compared with bare PEEK, improved osteogenic differentiation of human mesenchymal stem cells under both osteoinductive and osteoconductive conditions was found on the functionalized surface due to the liposomal Dex releasing. In vivo bacteriostasis assay confirmed that Mino released from the functionalized surface provided an effective antibacterial effect. Moreover, the subcutaneous foreign body reaction and beagle femur implantation models corroborated the enhanced anti-inflammatory and osteointegrative properties of the functionalized PEEK. Our findings indicate that the developed Dex/Mino liposome-modified PEEK with enhanced antibacterial, anti-inflammatory, and osseointegrative capacity has great potential as an orthopedic/dental implant material for clinical application.
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