Effect of ultraviolet treatment on soft tissue healing and bacterial attachment to titania-coated zirconia.

Shuang Tang, Jiebing Zhang, Ping Ma, Zutai Zhang
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Abstract

Zirconia is the most promising implant abutment material due to its excellent aesthetic effect, good biocompatibility and corrosion resistance. To obtain ideal soft tissue sealing, the implant abutment surface should facilitate cell adhesion and inhibit bacterial colonization. In this study, pre-sintered zirconia was placed in a suspension of titania (TiO2) and zirconium oxychloride (ZrOCl2) and heated in a water bath for dense sintering. A titania coating was prepared on the zirconia surface and subjected to UV irradiation. The surface morphology, elemental composition and chemical state of each group of samples were analyzed by scanning electron microscope, x-ray energy spectrometer, x-ray photoelectron spectroscopy and x-ray diffraction. The responses of human gingival fibroblasts (HGFs) and common oral pathogensStreptococcus mutans(S. mutans) andPorphyromonas gingivalis(P. gingivalis) to modified zirconia were systematically assessed. Our findings demonstrated that the surface of titania-coated zirconia after UV irradiation produced a large number of hydroxyl groups, and its hydrophilicity was significantly improved. Meanwhile, the UV irradiation also greatly removed the hydrocarbon contaminants on the surface of the titania-coated zirconia. The UV-treated titania coating significantly promoted the proliferation, spreading, and up-regulation of adhesion-related genes and proteins of HGFs. Furthermore, the titania coating irradiated with UV could reduce the adhesion, colonization and metabolic activity ofS. mutansandP. gingivalis. Therefore, UV irradiation of titania-coated zirconia can promote the biological behavior of HGFs and exert a significant antibacterial effect, which has broad clinical application prospects for improving soft tissue integration around zirconia abutments.

紫外线处理对软组织愈合和细菌附着在二氧化钛涂层氧化锆上的影响。
氧化锆具有极佳的美观效果、良好的生物相容性和耐腐蚀性,是最有前途的种植基台材料。为了获得理想的软组织封闭效果,种植体基台表面应有利于细胞粘附并抑制细菌定植。在这项研究中,将预烧结的氧化锆置于二氧化钛(TiO2)和氧氯化锆(ZrOCl2)的悬浮液中,并在水浴中加热进行致密烧结。在氧化锆表面制备二氧化钛涂层并进行紫外线照射。扫描电子显微镜(SEM)、X 射线能谱仪(EDS)、X 射线光电子能谱仪(XPS)和 X 射线衍射仪(XRD)对每组样品的表面形态、元素组成和化学状态进行了分析。我们还系统地评估了人牙龈成纤维细胞(HGFs)和常见口腔病原体变异链球菌(S. mutans)和牙龈卟啉单胞菌(P. gingivalis)对改性氧化锆的反应。我们的研究结果表明,经过紫外线照射后,二氧化钛涂层氧化锆表面产生了大量羟基,其亲水性显著提高。同时,紫外线照射还大大清除了氧化锆二氧化钛表面的碳氢化合物污染物。经紫外线处理的二氧化钛涂层能明显促进 HGFs 的增殖、扩散以及粘附相关基因和蛋白的上调。此外,经紫外线照射的二氧化钛涂层还能降低突变杆状病毒和牙龈球菌的粘附、定植和代谢活性。因此,紫外线照射二氧化钛涂层氧化锆可促进 HGFs 的生物学行为,并发挥显著的抗菌作用,在改善氧化锆基台周围软组织整合方面具有广阔的临床应用前景。
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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