Modification of polyether ether ketone for the repairing of bone defects

IF 3.9 3区医学 Q2 ENGINEERING, BIOMEDICAL

Biomedical materials Pub Date : 2022-04-08 DOI:10.1088/1748-605X/ac65cd

Junfeng Chen, Guangxiu Cao, Linhao Li, Q. Cai, N. Dunne, Xiaoming Li

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引用次数: 8

Abstract

Bone damage as a consequence of disease or trauma is a common global occurrence. For bone damage treatment—bone implant materials are necessary across three classifications of surgical intervention (i.e. fixation, repair, and replacement). Many types of bone implant materials have been developed to meet the requirements of bone repair. Among them, polyether ether ketone (PEEK) has been considered as one of the next generation of bone implant materials, owing to its advantages related to good biocompatibility, chemical stability, x-ray permeability, elastic modulus comparable to natural bone, as well as the ease of processing and modification. However, as PEEK is a naturally bioinert material, some modification is needed to improve its integration with adjacent bones after implantation. Therefore, it has become a very hot topic of biomaterials research and various strategies for the modification of PEEK including blending, 3D printing, coating, chemical modification and the introduction of bioactive and/or antibacterial substances have been proposed. In this systematic review, the recent advances in modification of PEEK and its application prospect as bone implants are summarized, and the remaining challenges are also discussed.

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聚醚醚酮的改性修复骨缺损

骨损伤作为疾病或创伤的后果是一个常见的全球事件。对于骨损伤治疗，骨植入材料在三种手术干预中是必需的(即固定、修复和置换)。为了满足骨修复的需要，已经开发出多种类型的骨种植材料。其中聚醚醚酮(PEEK)由于具有良好的生物相容性、化学稳定性、x射线渗透性、弹性模量可与天然骨媲美以及易于加工和修饰等优点，被认为是下一代骨植入材料之一。然而，由于PEEK是一种天然的生物惰性材料，植入后需要进行一些修饰以改善其与邻近骨骼的融合。因此，它已成为生物材料研究的一个非常热门的话题，人们提出了各种对PEEK进行改性的策略，包括共混、3D打印、涂层、化学改性以及引入生物活性和/或抗菌物质。本文综述了近年来PEEK改性材料的研究进展及其作为骨种植体的应用前景，并对其面临的挑战进行了讨论。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Biomedical materials 工程技术-材料科学：生物材料

CiteScore

6.70

自引率

7.50%

发文量

294

审稿时长

3 months

期刊介绍： The goal of the journal is to publish original research findings and critical reviews that contribute to our knowledge about the composition, properties, and performance of materials for all applications relevant to human healthcare. Typical areas of interest include (but are not limited to): -Synthesis/characterization of biomedical materials- Nature-inspired synthesis/biomineralization of biomedical materials- In vitro/in vivo performance of biomedical materials- Biofabrication technologies/applications: 3D bioprinting, bioink development, bioassembly & biopatterning- Microfluidic systems (including disease models): fabrication, testing & translational applications- Tissue engineering/regenerative medicine- Interaction of molecules/cells with materials- Effects of biomaterials on stem cell behaviour- Growth factors/genes/cells incorporated into biomedical materials- Biophysical cues/biocompatibility pathways in biomedical materials performance- Clinical applications of biomedical materials for cell therapies in disease (cancer etc)- Nanomedicine, nanotoxicology and nanopathology- Pharmacokinetic considerations in drug delivery systems- Risks of contrast media in imaging systems- Biosafety aspects of gene delivery agents- Preclinical and clinical performance of implantable biomedical materials- Translational and regulatory matters