並列タイトル等象牙質の酸化グラフェンコーティングと近赤外線光による光熱抗菌効果
一般注記Graphene oxide (GO) is a monolayer sheet of carbon with a thickness of 1 nm or less that has high hydrophilicity and dispersibility due to the presence of oxygen functional groups on its surface. Recent studies have revealed that GO exerts antibacterial properties, absorbs near-infrared (NIR) irradiation and generates heat. In this study, we assessed whether GO possessed the ability to cover the dentin. In addition, we investigated the photothermal and antibacterial effects of the GO film on Streptococcus mutans. The dentin block was prepared using extracted human molars. The dentin block was immersed in GO dispersion (concentration: 0,1 and 10 μg/mL). GO-coated dentin blocks were observed using scanning electron microscopy (SEM) and characterized using the dentinal tubule covering score. To assess the stability of the GO film, residual GO on the dentin block was observed after ultrasonic cleaning. Subsequently, the temperature increase of the GO-coated dentin surface following NIR irradiation was examined by thermography. Furthermore, antibacterial effects of the combination of GO film and NIR irradiation against S. mutans were evaluated by SEM observation, turbidity measurement, colony formation assessment and live/dead staining. A thin GO film with a thickness of a few nanometers was successfully formed on the dentin surface by immersion in GO solution. The dentinal tubule covering score increased in a GO concentration-dependent manner. Even after ultrasonic cleaning, GO residue was frequently observed on the dentin surface. When the GO-coated dentin block was irradiated with NIR light, the temperature of the dentin block surface increased in a GO concentration- and time-dependent manner. However, the temperature decreased as irradiation distance increased. Combination of GO application and NIR irradiation could heat the dentin surface to 58.5 °C after 30 seconds of irradiation. In antibacterial assessments, turbidity and colony formation were suppressed by GO and NIR irradiation. In addition, dead bacteria were detected by live/dead staining. A stable GO film was successfully formed on the dentin surface by immersion in GO dispersion. Photothermal and antibacterial effects were remarkably exhibited by GO and NIR irradiation. The GO-NIR system would be beneficial for photothermal antibacterial therapy.
(主査) 特任教授 柴田 健一郎, 教授 吉田 靖弘, 准教授 菅谷 勉
歯学研究科(口腔医学専攻)
コレクション(個別)国立国会図書館デジタルコレクション > デジタル化資料 > 博士論文
受理日(W3CDTF)2019-05-06T10:27:56+09:00
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