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使用2-甲基丙烯酰氧乙基磷酰胆碱接枝不锈钢复合材料用于植入应用的成骨细胞生物相容性和抗菌效果。

Osteoblast Biocompatibility and Antibacterial Effects Using 2-Methacryloyloxyethyl Phosphocholine-Grafted Stainless-Steel Composite for Implant Applications.

作者信息

Chen Dave W, Yu Hsin-Hsin, Luo Li-Jyuan, Rajesh Kumar Selvaraj, Chen Chien-Hao, Lin Tung-Yi, Lai Jui-Yang, Jessie Lue Shingjiang

机构信息

Department of Orthopedic Surgery, Chang Gung Memorial Hospital, Keelung City 401, Taiwan.

College of Medicine, Chang Gung University, Guishan District, Taoyuan City 333, Taiwan.

出版信息

Nanomaterials (Basel). 2019 Jun 28;9(7):939. doi: 10.3390/nano9070939.

DOI:10.3390/nano9070939

PMID:31261737

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6669514/

Abstract

Poor osteogenesis and bacterial infections lead to an implant failure, so the enhanced osteogenic and antimicrobial activity of the implantable device is of great importance in orthopedic applications. In this study, 2-methacryloyloxyethyl phosphocholine (MPC) was grafted onto 316L stainless steel (SS) using a facile photo-induced radical graft polymerization method via a benzophenone (BP) photo initiator. Atomic force microscopy (AFM) was employed to determine the nanoscale morphological changes on the surface. The grafted BP-MPC layer was estimated to be tens of nanometers thick. The SS-BP-MPC composite was more hydrophilic and smoother than the untreated and BP-treated SS samples. () bacteria binding onto the SS-BP-MPC composite film surface was significantly reduced compared with the pristine SS and SS-BP samples. Mouse pre-osteoblast (MC3T3-E1) cells showed good adhesion on the MPC-modified samples and better proliferation and metabolic activity (73% higher) than the pristine SS sample. Biological studies revealed that grafting MPC onto the SS substrate enhanced the antibacterial efficiency and also retained osteoblast biocompatibility. This proposed procedure is promising for use with other implant materials.

摘要

成骨能力差和细菌感染会导致植入物失败，因此可植入装置增强的成骨和抗菌活性在骨科应用中非常重要。在本研究中，通过二苯甲酮（BP）光引发剂，采用简便的光诱导自由基接枝聚合法将2-甲基丙烯酰氧乙基磷酰胆碱（MPC）接枝到316L不锈钢（SS）上。采用原子力显微镜（AFM）来确定表面的纳米级形态变化。接枝的BP-MPC层估计有几十纳米厚。与未处理和BP处理的SS样品相比，SS-BP-MPC复合材料更亲水且更光滑。与原始SS和SS-BP样品相比，附着在SS-BP-MPC复合膜表面的细菌显著减少。小鼠前成骨细胞（MC3T3-E1）在MPC修饰的样品上表现出良好的粘附性，并且比原始SS样品具有更好的增殖和代谢活性（高出73%）。生物学研究表明，将MPC接枝到SS基底上可提高抗菌效率，同时保持成骨细胞的生物相容性。该方法有望应用于其他植入材料。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/015e/6669514/391d23560769/nanomaterials-09-00939-g001.jpg

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使用2-甲基丙烯酰氧乙基磷酰胆碱接枝不锈钢复合材料用于植入应用的成骨细胞生物相容性和抗菌效果。

Osteoblast Biocompatibility and Antibacterial Effects Using 2-Methacryloyloxyethyl Phosphocholine-Grafted Stainless-Steel Composite for Implant Applications.

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