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An updated review and recent advancements in carbon-based bioactive coatings for dental implant applications
Journal of Advanced Research ( IF 11.4 ) Pub Date : 2024-07-20 , DOI: 10.1016/j.jare.2024.07.016 Nazrah Maher 1 , Anum Mahmood 1 , Muhammad Amber Fareed 2 , Naresh Kumar 1 , Dinesh Rokaya 3 , Muhammad Sohail Zafar 4
中文翻译:
用于牙科植入物的碳基生物活性涂层的最新综述和最新进展
用生物活性生物材料对牙科植入物进行表面涂层是提高牙科植入物的骨整合潜力、抗菌性能、耐用性和临床成功率的杰出方法之一。碳基生物活性涂料是一类独特的生物材料,具有优异的机械性能、高化学和热稳定性、骨传导性、耐腐蚀性和生物相容性,已成功用于此目的。
本综述旨在全面概述各种碳基涂层的结构、性能、涂层技术和在牙科植入物中的应用,特别关注碳基纳米材料 (CNM),这是一类先进的生物材料。
使用 PubMed、Science Direct 和 Google Scholar 资源审查了有关牙科植入物碳涂层的现有文章。碳基涂层无细胞毒性、高度生物相容性、化学惰性和骨传导性,使骨细胞能够与植入物表面紧密接触并防止细菌附着和生长。目前的研究和进步现在更集中在碳基纳米材料 (CNM) 上,因为这种新兴的生物材料同时具有纳米技术和碳的优势,并且与理想的涂层材料特性密切相关。碳纳米管、石墨烯及其衍生物在牙科植入物涂层中受到最关注。碳基材料有多种涂层技术可供选择,可根据基材类型、应用要求和所需的涂层厚度进行选择。气相沉积技术、等离子喷涂、激光沉积和热喷涂技术最常用于涂覆植入物表面的碳结构。需要更长时间的试验和监测来确定碳基生物活性涂层在牙科植入物应用中的作用。
更新日期:2024-07-20
Journal of Advanced Research ( IF 11.4 ) Pub Date : 2024-07-20 , DOI: 10.1016/j.jare.2024.07.016 Nazrah Maher 1 , Anum Mahmood 1 , Muhammad Amber Fareed 2 , Naresh Kumar 1 , Dinesh Rokaya 3 , Muhammad Sohail Zafar 4
Affiliation
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Background
Surface coating of dental implants with a bioactive biomaterial is one of the distinguished approaches to improve the osseointegration potential, antibacterial properties, durability, and clinical success rate of dental implants. Carbon-based bioactive coatings, a unique class of biomaterial that possesses excellent mechanical properties, high chemical and thermal stability, osteoconductivity, corrosion resistance, and biocompatibility, have been utilized successfully for this purpose.Aim
This review aims to present a comprehensive overview of the structure, properties, coating techniques, and application of the various carbon-based coatings for dental implant applications with a particular focus on Carbon-based nanomaterial (CNMs), which is an advanced class of biomaterials.Key Scientific Concepts of Review.
Available articles on carbon coatings for dental implants were reviewed using PubMed, Science Direct, and Google Scholar resources. Carbon-based coatings are non-cytotoxic, highly biocompatible, chemically inert, and osteoconductive, which allows the bone cells to come into close contact with the implant surface and prevents bacterial attachment and growth. Current research and advancements are now more focused on carbon-based nanomaterial (CNMs), as this emerging class of biomaterial possesses the advantage of both nanotechnology and carbon and aligns closely with ideal coating material characteristics. Carbon nanotubes, graphene, and its derivatives have received the most attention for dental implant coating. Various coating techniques are available for carbon-based materials, chosen according to substrate type, application requirements, and desired coating thickness. Vapor deposition technique, plasma spraying, laser deposition, and thermal spraying techniques are most commonly employed to coat the carbon structures on the implant surface. Longer duration trials and monitoring are required to ascertain the role of carbon-based bioactive coating for dental implant applications.中文翻译:
用于牙科植入物的碳基生物活性涂层的最新综述和最新进展
背景
用生物活性生物材料对牙科植入物进行表面涂层是提高牙科植入物的骨整合潜力、抗菌性能、耐用性和临床成功率的杰出方法之一。碳基生物活性涂料是一类独特的生物材料,具有优异的机械性能、高化学和热稳定性、骨传导性、耐腐蚀性和生物相容性,已成功用于此目的。
目的
本综述旨在全面概述各种碳基涂层的结构、性能、涂层技术和在牙科植入物中的应用,特别关注碳基纳米材料 (CNM),这是一类先进的生物材料。
评论的关键科学概念。
使用 PubMed、Science Direct 和 Google Scholar 资源审查了有关牙科植入物碳涂层的现有文章。碳基涂层无细胞毒性、高度生物相容性、化学惰性和骨传导性,使骨细胞能够与植入物表面紧密接触并防止细菌附着和生长。目前的研究和进步现在更集中在碳基纳米材料 (CNM) 上,因为这种新兴的生物材料同时具有纳米技术和碳的优势,并且与理想的涂层材料特性密切相关。碳纳米管、石墨烯及其衍生物在牙科植入物涂层中受到最关注。碳基材料有多种涂层技术可供选择,可根据基材类型、应用要求和所需的涂层厚度进行选择。气相沉积技术、等离子喷涂、激光沉积和热喷涂技术最常用于涂覆植入物表面的碳结构。需要更长时间的试验和监测来确定碳基生物活性涂层在牙科植入物应用中的作用。
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