Construction and properties of the antibacterial epitaxial transition layer on a zirconia ceramic surface

Secondary caries is one of the main causes of dental zirconia restoration failure in the clinic. Therefore, it is urgent to improve the antibacterial performance of zirconia ceramics to reduce the occurrence of secondary caries. In this study, a quaternary ammonium compound antibacterial polymer was...

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Detalles Bibliográficos
Autores principales: Liu, Xiuju, Cheng, Qiuli, Zhu, Yanlin, Yu, Shiyang, Hou, Yanyan, Cui, Zhanchen, Zhu, Song
Formato: Online Artículo Texto
Lenguaje:English
Publicado: The Royal Society of Chemistry 2021
Materias:
Chemistry
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9044776/
https://www.ncbi.nlm.nih.gov/pubmed/35494754
http://dx.doi.org/10.1039/d1ra06496g
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author Liu, Xiuju
Cheng, Qiuli
Zhu, Yanlin
Yu, Shiyang
Hou, Yanyan
Cui, Zhanchen
Zhu, Song
author_facet Liu, Xiuju
Cheng, Qiuli
Zhu, Yanlin
Yu, Shiyang
Hou, Yanyan
Cui, Zhanchen
Zhu, Song
author_sort Liu, Xiuju
collection PubMed
description Secondary caries is one of the main causes of dental zirconia restoration failure in the clinic. Therefore, it is urgent to improve the antibacterial performance of zirconia ceramics to reduce the occurrence of secondary caries. In this study, a quaternary ammonium compound antibacterial polymer was innovatively synthesized by solution polymerization with a quaternary ammonium salt monomer as the antibacterial component. The antibacterial epitaxial transition layer was successfully prepared on the surface of zirconia ceramics by the hydroxyl group on HEMA reacting with the siloxane group in the KH570 hydrolysate, which makes the antibacterial polymer indirectly chemically combine with the silicate epitaxial transition layer. The antibacterial epitaxial transition layer exhibited excellent mechanical properties, satisfactory biocompatibility and significant antibacterial effects, and the maximum antibacterial rate is 99%. The antibacterial epitaxial transition layer plays an important role in preventing secondary caries and improving the success rate of clinical zirconia ceramic restorations.
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spelling pubmed-90447762022-04-28 Construction and properties of the antibacterial epitaxial transition layer on a zirconia ceramic surface Liu, Xiuju Cheng, Qiuli Zhu, Yanlin Yu, Shiyang Hou, Yanyan Cui, Zhanchen Zhu, Song RSC Adv Chemistry Secondary caries is one of the main causes of dental zirconia restoration failure in the clinic. Therefore, it is urgent to improve the antibacterial performance of zirconia ceramics to reduce the occurrence of secondary caries. In this study, a quaternary ammonium compound antibacterial polymer was innovatively synthesized by solution polymerization with a quaternary ammonium salt monomer as the antibacterial component. The antibacterial epitaxial transition layer was successfully prepared on the surface of zirconia ceramics by the hydroxyl group on HEMA reacting with the siloxane group in the KH570 hydrolysate, which makes the antibacterial polymer indirectly chemically combine with the silicate epitaxial transition layer. The antibacterial epitaxial transition layer exhibited excellent mechanical properties, satisfactory biocompatibility and significant antibacterial effects, and the maximum antibacterial rate is 99%. The antibacterial epitaxial transition layer plays an important role in preventing secondary caries and improving the success rate of clinical zirconia ceramic restorations. The Royal Society of Chemistry 2021-10-29 /pmc/articles/PMC9044776/ /pubmed/35494754 http://dx.doi.org/10.1039/d1ra06496g Text en This journal is © The Royal Society of Chemistry https://creativecommons.org/licenses/by-nc/3.0/
spellingShingle Chemistry
Liu, Xiuju
Cheng, Qiuli
Zhu, Yanlin
Yu, Shiyang
Hou, Yanyan
Cui, Zhanchen
Zhu, Song
Construction and properties of the antibacterial epitaxial transition layer on a zirconia ceramic surface
title Construction and properties of the antibacterial epitaxial transition layer on a zirconia ceramic surface
title_full Construction and properties of the antibacterial epitaxial transition layer on a zirconia ceramic surface
title_fullStr Construction and properties of the antibacterial epitaxial transition layer on a zirconia ceramic surface
title_full_unstemmed Construction and properties of the antibacterial epitaxial transition layer on a zirconia ceramic surface
title_short Construction and properties of the antibacterial epitaxial transition layer on a zirconia ceramic surface
title_sort construction and properties of the antibacterial epitaxial transition layer on a zirconia ceramic surface
topic Chemistry
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9044776/
https://www.ncbi.nlm.nih.gov/pubmed/35494754
http://dx.doi.org/10.1039/d1ra06496g
work_keys_str_mv AT liuxiuju constructionandpropertiesoftheantibacterialepitaxialtransitionlayeronazirconiaceramicsurface
AT chengqiuli constructionandpropertiesoftheantibacterialepitaxialtransitionlayeronazirconiaceramicsurface
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AT yushiyang constructionandpropertiesoftheantibacterialepitaxialtransitionlayeronazirconiaceramicsurface
AT houyanyan constructionandpropertiesoftheantibacterialepitaxialtransitionlayeronazirconiaceramicsurface
AT cuizhanchen constructionandpropertiesoftheantibacterialepitaxialtransitionlayeronazirconiaceramicsurface
AT zhusong constructionandpropertiesoftheantibacterialepitaxialtransitionlayeronazirconiaceramicsurface

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