ZrO₂ Ceramic without and with Fullerene C₆₀ Films: In Vitro Direct-Contact Model Using E. coli and S. aureus Bacteria.

IF 5.2 3区医学 Q1 ENGINEERING, BIOMEDICAL

Journal of Functional Biomaterials Pub Date : 2026-04-21 DOI:10.3390/jfb17040206

Annett Dorner-Reisel, Jialin Li, Marta Trzaskowska, Vladyslav Vivcharenko, Jiacheng Chu, Emma Freiberger, Uwe Ritter, Agata Przekora, Aneta Zima, Tao Wang, Jens Moje

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引用次数: 0

Abstract

Zirconia is known as a strong and bioinert load-bearing material for dental implants. It typically exhibits no antibacterial activity. Inflammation is a crucial problem for dental implant surgery: about 3-5% of all dental implants experience inflammation. This study demonstrates that either fullerene C₆₀ films or a tribomechanical loading of zirconia without the fullerene C₆₀ coating can cause an improvement in antibacterial activity against Gram-positive Staphylococcus aureus. This moderate antibacterial activity is especially important, because a strong antibacterial effect could disturb the sensitive and beneficial oral bacterial biota. In the present study, different fullerene C₆₀ films were examined. In addition to fullerene C₆₀ film in an "as deposited" condition, treatment with nitrogen plasma as well as tribomechanical produced surface patterns with and without plasma post-treatment were tested. An 85.8% (log reduction 0.85) reduction in Gram-positive Staphylococcus aureus bacterial formation was observed on the zirconia with fullerene C₆₀ film. Plasma treatment of the C₆₀ film increases the antibacterial impact to 72.2% (log reduction 0.56) in comparison to zirconia without fullerene C₆₀ film. Also, tribomechanical loaded fullerene C₆₀ films suppress the growth of Gram-positive Staphylococcus aureus. The tribomechanical loading seems to compensate for the effect of the plasma treatment. ZrO₂ samples with fullerene C₆₀ film and tribomechanical loading achieve an increase in antibacterial impact of 83.36% (log reduction 0.78). Furthermore, surprisingly yttria-stabilized zirconia bioceramic without fullerene C₆₀ film also shows an improved antibacterial efficacy after a tribomechanical patterning procedure. The addition of surface patterning on the ZrO₂ by scratching microgroove arrangements with a diamond tip, increased the antibacterial effect against Gram-positive Staphylococcus aureus by 70.46% (log reduction 0.53).

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无富勒烯C60和含富勒烯C60的ZrO2陶瓷：大肠杆菌和金黄色葡萄球菌体外直接接触模型

氧化锆是一种坚固的生物惰性牙种植体承重材料。它通常没有抗菌活性。炎症是种植牙手术的一个关键问题：大约3-5%的种植牙会出现炎症。本研究表明，无论是富勒烯C60薄膜还是氧化锆摩擦力学负载，都可以提高对革兰氏阳性金黄色葡萄球菌的抗菌活性。这种适度的抗菌活性尤其重要，因为强烈的抗菌作用可能会扰乱敏感和有益的口腔细菌生物群。本研究考察了不同的富勒烯C60薄膜。除了在“沉积”状态下的富勒烯C60薄膜外，还测试了氮气等离子体处理以及经过和不经过等离子体后处理的摩擦力学产生的表面图案。富勒烯C60氧化锆膜上革兰氏阳性金黄色葡萄球菌的形成减少85.8%（对数减少0.85）。与不含富勒烯的氧化锆C60膜相比，等离子体处理的C60膜的抗菌效果提高到72.2%（对数降低0.56）。此外，摩擦力学负载的富勒烯C60薄膜抑制革兰氏阳性金黄色葡萄球菌的生长。摩擦力学载荷似乎弥补了等离子体处理的影响。负载富勒烯C60薄膜和摩擦力学载荷的ZrO2样品的抗菌效果提高了83.36%（对数降低0.78）。此外，令人惊讶的是，没有富勒烯C60薄膜的氧化钇稳定氧化锆生物陶瓷在经过摩擦力学模式处理后也显示出更好的抗菌效果。用金刚石尖在ZrO2上刻划微槽排列，增加表面图案，对革兰氏阳性金黄色葡萄球菌的抗菌效果提高了70.46%（对数降低0.53）。

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

Journal of Functional Biomaterials Engineering-Biomedical Engineering

CiteScore

4.60

自引率

4.20%

发文量

226

审稿时长

11 weeks

期刊介绍： Journal of Functional Biomaterials (JFB, ISSN 2079-4983) is an international and interdisciplinary scientific journal that publishes regular research papers (articles), reviews and short communications about applications of materials for biomedical use. JFB covers subjects from chemistry, pharmacy, biology, physics over to engineering. The journal focuses on the preparation, performance and use of functional biomaterials in biomedical devices and their behaviour in physiological environments. Our aim is to encourage scientists to publish their results in as much detail as possible. Therefore, there is no restriction on the length of the papers. The full experimental details must be provided so that the results can be reproduced. Several topical special issues will be published. Scope: adhesion, adsorption, biocompatibility, biohybrid materials, bio-inert materials, biomaterials, biomedical devices, biomimetic materials, bone repair, cardiovascular devices, ceramics, composite materials, dental implants, dental materials, drug delivery systems, functional biopolymers, glasses, hyper branched polymers, molecularly imprinted polymers (MIPs), nanomedicine, nanoparticles, nanotechnology, natural materials, self-assembly smart materials, stimuli responsive materials, surface modification, tissue devices, tissue engineering, tissue-derived materials, urological devices.