Department of Prosthetic Dentistry, Faculty of Dental Medicine, Medical University-Plovdiv, Bulgaria.
Department of Social Medicine and Public Health, Faculty of Public Health, Medical University-Plovdiv, Bulgaria.
Biomed Res Int. 2021 Sep 23;2021:1163874. doi: 10.1155/2021/1163874. eCollection 2021.
The wide variety of methods for recording occlusal contacts and the contradictory data on the interpretation of the obtained markings provoked us to make a comparative laboratory study between different occlusal indicators.
Evaluation of a qualitative and quantitative method for registration of occlusal contacts in static occlusion in laboratory conditions.
In completion of the objective, we designed an apparatus for registration of the occlusal contacts (AROC) in static occlusion which is used, corresponding to the MIP in clinical conditions. The occlusal indicators that were included in the study were articulating paper 100 , articulating foil 12 , and T-Scan Novus system with a sensor thickness of 100 . The collected primary statistical information was entered and processed with the statistical package SPSS Statistics 19.0, and the graphs were prepared using Microsoft Office 2019. We performed descriptive statistical analysis in this study. Comparisons were performed using one-way analysis of variance (ANOVA), Student's test, and Pearson coefficient method. For a significance level, < 0.05 was chosen. . With quality occlusal indicators, it is possible only to visually determine the size, number, and intensity of the marked contacts. After the statistical processing of the obtained data on the number of registered contacts, a significant difference is found in the number of contacts of certain teeth (18, 24, 25, 28, 38, 35, 34, 33, 44, 45, and 48) registered with articulating paper and articulating foil. The maximum force that is reported during the study with the T-Scan system is 93.72% and the forces in the right half of the dentition are 51.7% and in the left 48.9%. To visualize the location of the registered occlusal contacts with the system, it is intraoral to use a quality indicator and we recommend the use of articulating foil.
Based on findings from the current in vitro simulation, we can conclude that the type of occlusal indicator influences the registration of contacts, and therefore, we propose as a method of choice to achieve a balanced occlusion in clinical practice to combine the use of one conventional and one quantitative method.
记录咬合接触的方法多种多样,而对所获得的标记的解释数据也存在矛盾,这促使我们对不同的咬合指标进行了比较性的实验室研究。
评估一种在实验室条件下静态咬合时记录咬合接触的定性和定量方法。
为了完成研究目的,我们设计了一种在静态咬合时用于记录咬合接触的装置(AROC),它与临床条件下的 MIP 相对应。本研究中包含的咬合指标有:100μm 咬合记录纸、12μm 咬合箔片和 T-Scan Novus 系统,传感器厚度为 100μm。收集的原始统计信息通过 SPSS Statistics 19.0 统计软件包输入和处理,图形则使用 Microsoft Office 2019 制作。本研究进行了描述性统计分析。采用单因素方差分析(ANOVA)、学生检验和 Pearson 系数法进行比较。选择显著性水平为 < 0.05。
使用高质量的咬合指标,只能通过视觉确定标记接触的大小、数量和强度。对记录接触点数量的所得数据进行统计处理后,在记录纸和咬合箔片记录的某些牙齿(18、24、25、28、38、35、34、33、44、45 和 48)的接触数量上发现存在显著差异。T-Scan 系统报告的最大力为 93.72%,右侧齿列的力为 51.7%,左侧为 48.9%。为了在研究中可视化记录的咬合接触位置,需要使用质量指标进行口内检查,我们建议在临床实践中选择结合使用一种传统方法和一种定量方法来获得平衡的咬合。
基于当前的体外模拟研究结果,我们可以得出结论,咬合指标的类型会影响接触的记录,因此,我们建议在临床实践中选择使用一种传统方法和一种定量方法相结合的方法来实现平衡的咬合。
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