氧化石墨烯包裹多孔 CF/PEEK 复合材料作为可植入材料的骨整合和生物安全性：表面结构和化学的作用。

Osseointegration and biosafety of graphene oxide wrapped porous CF/PEEK composites as implantable materials: The role of surface structure and chemistry.

机构信息

Institute of New Carbon Materials, Taiyuan University of Technology, Taiyuan 030024, China.

Oral Multidisciplinary Medical Center of the First Hospital of Shanxi Medical University, Taiyuan, 030001, China.

出版信息

Dent Mater. 2020 Oct;36(10):1289-1302. doi: 10.1016/j.dental.2020.06.004. Epub 2020 Jul 7.

DOI:10.1016/j.dental.2020.06.004

PMID:32651018

Abstract

OBJECTIVES

To investigate the influence of surface microstructure and chemistry after modification on surface bioactivity and biosafety of carbon fibers reinforced PEEK (CF/PEEK) composites as implants.

METHODS

CF/PEEK composites with different CF contents (0 wt%, 25 wt% and 40 wt%) were prepared by injection molding and treated by concentrated sulfuric acid. A porous network was produced on the surface by etching action. Subsequently, the sulfonated CF/PEEK composites were immersed in GO solution. Thus, GO wrinkles with abundant functional groups were wrapped outside the porous nanostructures on CF/PEEK composites. The cell responses in vitro (proliferation, alkaline phosphatase activity and cell mineralization), osseointegration in vivo (fluorochrome labeling, H&E staining and X-ray analysis) and biosafety were investigated.

RESULTS

The pore size of porous layer on the surface of CF/PEEK composites was improved with the increase of CF content. Subsequently, a silk-like GO wrinkles on the surface were formed by GO modification. And the more CF content, the greater the degree of GO wrinkles. The results revealed that GO functional wrinkle up-regulated surface hydrophilicity. In vitro cell experiments showed that porous nanostructures and GO wrinkles dramatically promoted initial cell behaviors. Significantly, GO modified composites exhibited enhanced bioactivity and osseointegration in vivo. Fortunately, the GO wrapped porous CF/PEEK composites displayed biosafety.

SIGNIFICANCE

The surface modification is effective and the modified composites showed great bioactivity. The GO wrapped porous CF/PEEK composites would hold great potential for implants.

摘要

目的

研究表面微观结构和化学修饰后对碳纤维增强聚醚醚酮（CF/PEEK）复合材料作为植入物的表面生物活性和生物安全性的影响。

方法

通过注塑成型制备不同 CF 含量（0wt%、25wt%和 40wt%）的 CF/PEEK 复合材料，并采用浓硫酸进行处理。通过蚀刻作用在表面上产生多孔网络。随后，将磺化 CF/PEEK 复合材料浸入 GO 溶液中。因此，在 CF/PEEK 复合材料的多孔纳米结构外包裹了富含官能团的 GO 褶皱。体外细胞反应（增殖、碱性磷酸酶活性和细胞矿化）、体内骨整合（荧光标记、H&E 染色和 X 射线分析）和生物安全性进行了研究。

结果

随着 CF 含量的增加，CF/PEEK 复合材料表面多孔层的孔径增大。随后，通过 GO 修饰在表面形成了丝般的 GO 褶皱。并且 CF 含量越高，GO 褶皱的程度越大。结果表明，GO 官能团褶皱显著提高了表面亲水性。体外细胞实验表明，多孔纳米结构和 GO 褶皱极大地促进了初始细胞行为。值得注意的是，GO 改性复合材料表现出增强的体内生物活性和骨整合。幸运的是，GO 包裹的多孔 CF/PEEK 复合材料显示出生物安全性。

意义

表面修饰是有效的，改性复合材料表现出很好的生物活性。GO 包裹的多孔 CF/PEEK 复合材料在植入物方面具有很大的潜力。

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氧化石墨烯包裹多孔 CF/PEEK 复合材料作为可植入材料的骨整合和生物安全性：表面结构和化学的作用。

Osseointegration and biosafety of graphene oxide wrapped porous CF/PEEK composites as implantable materials: The role of surface structure and chemistry.

机构信息

出版信息

OBJECTIVES

METHODS

RESULTS

SIGNIFICANCE

目的

方法

结果

意义

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