Functionalized titanium implant in regulating bacteria and cell response

Functionalized titanium implant in regulating bacteria and cell response

Jianfeng Jin,1 Dongdong Fei,1 Yumei Zhang,2 Qintao Wang1 1State Key Laboratory of Military Stomatology & National Clinical Research Center for Oral Diseases & Shaanxi Engineering Research Center for Dental Materials and Advanced Manufacture, Department of Periodontology, School of S...

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Detalles Bibliográficos
Autores principales: Jin J, Fei D, Zhang Y, Wang Q
Formato: article
Lenguaje:EN
Publicado: Dove Medical Press 2019
Materias:
Functionalized titanium implant
Ti-GO-Ag nanocomposite
Surface topography
Material characterization
Antibacterial mechanism
Cell behavior
Medicine (General)
R5-920
Acceso en línea:https://doaj.org/article/256a79c0402d47169eb9780f069c7faa
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Sumario:Jianfeng Jin,1 Dongdong Fei,1 Yumei Zhang,2 Qintao Wang1 1State Key Laboratory of Military Stomatology & National Clinical Research Center for Oral Diseases & Shaanxi Engineering Research Center for Dental Materials and Advanced Manufacture, Department of Periodontology, School of Stomatology, The Fourth Military Medical University, Xi’an, People’s Republic of China; 2State Key Laboratory of Military Stomatology & National Clinical Research Center for Oral Diseases & Shaanxi Key Laboratory of Stomatology, Department of Prosthodontics, School of Stomatology, The Fourth Military Medical University, Xi’an, People’s Republic of China Background: Biological complications are an issue of critical interest in contemporary dental and orthopedic fields. Although titanium (Ti), graphene oxide (GO) or silver (Ag) particles are suitable for biomedical implants due to their excellent cytocompatibility, bioactivity, and antibacterial properties, the exact antibacterial mechanism is not understood when the three substances are combined (Ti-GO-Ag). Materials and methods: In this work, the material characterization, antibacterial property, antibacterial mechanisms, and cell behavior of Ti-GO-Ag fabricated by electroplating and ultraviolet reduction methods respectively, were investigated in detail. Results: The material char­acterization of Ti-GO-Ag tested by atomic force microscopy, Raman spectroscopy, X-ray photoelectron spectroscopy, nanoindentation, nanoscratch, inductively coupled plasma mass spectrometer, and contact angle tester revealed the importance of GO concentration and Ag content in the preparation process. The antibacterial tests of Ti-GO-Ag clearly demonstrated the whole process of bacteria interacting with materials, including reactive oxygen species, endocytosis, aggregation, perforation, and leakage. In addition, the behavior of Ti-GO-Ag showed that cell area, length, width, and fluorescence intensity were affected. Conclusion: Briefly, Ti-GO-Ag nanocomposite was a dual-functionalized implant biomaterial with antibacterial and biocom­patible characterization. Keywords: functionalized titanium implant, Ti-GO-Ag nanocomposite, surface topography, material characterization, antibacterial mechanism, cell behavior

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