全面分析当代制造商生产的钛基台的元素组成和表面浮雕

R. A. Sadikov, Yuliya V. Plotkina, E. М. Chernovol, A. L. Rubezov, E. Mikhailova, А. R. Sadikov
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摘要

相关性。种植系统修复组件的龈沟部分是软组织初步适应和龈领形成的基底,龈领是一种起生物屏障作用的组织复合体,可确保人工支持体在口腔微环境中的正常功能。同时,在加载期间与牙龈部分持续接触的基台表面的形态也非常重要。如果矫治结构的龈下部分表面形态发生变化,就会在龈下区域形成微生物生物膜,进而引发粘膜炎和种植体周围炎。基于上述情况,研究种植系统矫形部件的表面特征似乎与了解炎症过程的发病机制和评估牙科种植并发症发生的风险因素有关。研究多家现代制造商生产的矫形组件(经龈种植基台)的元素组成和表面形态特征(或特性)的差异。研究选择了五家制造公司的修复组件。在评估过程中,使用配备牛津仪器公司 X-Max20 能量色散光谱仪的日立 S-3400N 扫描电子显微镜对组件表面进行元素分析,并使用 TESCAN VEGA 3 扫描电子显微镜进行形态分析。对样品的表面均匀性、是否存在夹杂物、裂纹和痕迹进行了评估。研究结果表明,各成分在元素组成和表面形貌上都存在明显差异。研究结果以表格的形式进行了总结。本研究中使用的综合表面评估方法可推荐用于描述和比较来自不同制造公司的矫形部件。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Comprehensive analysis of the elemental composition and surface relief of titanium abutments from contemporary manufactures
Relevance. The transgingival part of the prosthetic components of implant systems is a substrate for the primary adaptation of soft tissues and the formation of the gingiva collar - a complex of tissues acting as a biological barrier and ensuring the normal functioning of artificial supports in the microenvironment of the oral cavity. At the same time, the morphology of the surface of the abutment which will be in constant contact with the gingiva part during the loading period is of great importance. A change in the properties of the surface morphology of the transgingival part of orthopedic structures is fraught with the formation of a microbial bio-film in the subgingival zone with the with the subsequent development of mucositis and peri-implantitis. Based on the above, the study of the surface characteristics of orthopedic components of implantation systems seems relevant in the light of understanding the pathogenesis of inflammatory processes and assessing risk factors for the development of complications of dental implantation.Purpose. Study of differences in the elemental composition and features (or characteristics) of the surface morphology of orthopedic components - transgingival implant abutments from a number of modern manufacturers.Materials and methods. Prosthetic components from five manufacturing companies were selected for the study. For the assessment, elemental analysis of the surface of the components was used using a Hitachi S-3400N scanning electron microscope with an Oxford Instruments X-Max20 energy dispersive spectrometer, as well as morphological analysis using a TESCAN VEGA 3 scanning electron microscope. The samples were assessed for surface uniformity, the presence of inclusions, cracks and marks.Results. The study revealed significant differences in the components both in elemental composition and surface topography. The results obtained can be summarized in the form of a table.Conclusion. The method of comprehensive surface assessment used in the study can be recommended for describing and comparing orthopedic components from different manufacturing companies.
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