Three-dimensional analysis of the interchangeability of a semiadjustable articulator system in service over time

IF 4.3 2区 医学 Q1 DENTISTRY, ORAL SURGERY & MEDICINE Journal of Prosthetic Dentistry Pub Date : 2024-11-01 DOI:10.1016/j.prosdent.2023.04.009
Vern Chien Lee BDS, MDS , Ming Yi Tan BDS, MDS , Sophia Hui Xin Yee BDS, MDS , Kuan Yee Wong BDS, MDS , Frank Kong Fei Lee BDS, MDS , Keson Beng Choon Tan BDS, MSD
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Abstract

Statement of problem

Some contemporary articulator systems claim to be highly precise in their interchangeability, with tolerances below 10 μm in vertical error; however, the claims have not been independently verified.

Purpose

The purpose of this study was to investigate the interchangeability of calibrated semiadjustable articulators in service over time.

Material and methods

A calibrated mounting articulator served as the master articulator, while the test groups were used articulators with a minimum of 1-year use by predoctoral dental students (n=10); used articulators with a minimum of 1-year use by prosthodontic residents (n=10); and new articulators (n=10). One set of mounted maxillary and mandibular master models was positioned in the master and test articulators. High-precision reference markers on the master models were used to determine interarch 3D distance distortions (dRR, dRC, and dRL), interocclusal 3D distance distortion (dRM), interocclusal 2D distance distortions (dxM, dyM, and dzM), and interocclusal angular distortion (dθM) relative to the master articulator. All measurements were conducted three times using a coordinate measuring machine and then averaged to derive the final data set.

Results

For interarch 3D distance distortion, the mean dRR ranged from 4.6 ±21.6 μm for new articulators to 56.3 ±47.6 μm for articulators used by prosthodontic residents; mean dRC ranged from 65 ±48.6 μm for new articulators to 119.0 ±58.8 μm for articulators used by prosthodontic residents; and mean dRL ranged from 12.7 ±39.7 μm for articulators used by prosthodontic residents to 62.8 ±75.2 μm for new articulators. For interocclusal 3D distance distortion, the mean dRM ranged from 21.5 ±49.8 μm for new articulators to 68.6 ±64.9 μm for articulators used by predoctoral dental students. For the 2D distance distortions, the mean dxM ranged from −17.9 ±43.4 μm for articulators used by predoctoral dental students to −61.9 ±48.3 μm for articulators used by prosthodontic residents; mean dyM ranged from 18.1 ±59.4 μm for new articulators to 69.3 ±115.1 μm for articulators used by prosthodontic residents; and mean dzM ranged from 29.5 ±20.2 μm for new articulators to 70.1 ±37.8 μm for articulators used by prosthodontic residents. Mean dθM ranged from −0.018 ±0.289 degree for new articulators to 0.141 ±0.267 degree for articulators used by prosthodontic residents. One-way ANOVA by articulator type revealed statistically significant differences among the test groups for dRR (P=.007) and dzM (P=.011) only, where articulators used by prosthodontic residents fared significantly poorer than the other test groups.

Conclusions

The new and used articulators tested did not fulfill the manufacturer’s claim of accuracy of up to 10 μm in the vertical dimension. Up to 1 year of time in service, none of the investigated test groups fulfilled the criterion for articulator interchangeability, even if the more lenient threshold of 166 μm were accepted.
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对使用中的半可调铰接系统随时间推移的互换性进行三维分析。
问题陈述:一些当代的关节器系统声称其互换性非常精确,垂直误差公差低于10 μm;然而,这些说法尚未得到独立的验证:一个校准过的安装关节器作为主关节器,而测试组分别是牙科博士前期学生使用过至少1年的旧关节器(n=10);修复科住院医师使用过至少1年的旧关节器(n=10);以及新关节器(n=10)。一套安装好的上颌和下颌主模型被放置在主模型和测试铰接器中。使用主模型上的高精度参考标记来确定相对于主关节的弓间三维距离变形(dRR、dRC和dRL)、咬合间三维距离变形(dRM)、咬合间二维距离变形(dxM、dyM和dzM)以及咬合间角度变形(dθM)。所有测量均使用三坐标测量机进行三次,然后取平均值得出最终数据集:结果:对于拱间三维距离变形,新铰接器的平均 dRR 为 4.6 ±21.6 μm,而修复科住院医生使用的铰接器的平均 dRR 为 56.3 ±47.6 μm;平均 dRC 为 65 ±48.6 μm,而修复科住院医生使用的铰接器的平均 dRC 为 65 ±48.6 μm。6 μm,而修复科住院医师使用的铰接器为 119.0 ±58.8 μm;平均 dRL 范围为修复科住院医师使用的铰接器的 12.7 ±39.7 μm,而新铰接器为 62.8 ±75.2 μm。对于咬合间三维距离变形,新发音器的平均dRM为21.5 ±49.8 μm,而牙科博士前期学生使用的发音器的平均dRM为68.6 ±64.9 μm。对于二维距离变形,牙科博士生使用的衔接器的平均 dxM 为 -17.9 ±43.4 μm,而口腔修复住院医师使用的衔接器的平均 dyM 为 -61.9 ±48.3 μm;平均 dyM 为 18.1 ±59.4 μm,而口腔修复住院医师使用的衔接器的平均 dyM 为 -61.9 ±48.3 μm。4 μm 到修复科住院医师使用的铰接器的 69.3 ±115.1 μm;平均 dzM 从新铰接器的 29.5 ±20.2 μm 到修复科住院医师使用的铰接器的 70.1 ±37.8 μm 不等。平均 dθM 范围为:新铰接装置为 -0.018 ±0.289 度,修复科住院医生使用的铰接装置为 0.141 ±0.267 度。按发音器类型进行的单因素方差分析显示,各测试组之间仅在dRR(P=.007)和dzM(P=.011)方面存在显著的统计学差异,其中修复科住院医师使用的发音器的表现明显差于其他测试组:接受测试的新旧铰接器均未达到制造商宣称的垂直方向 10 μm 的精度。即使接受 166 μm 这一较宽松的阈值,在使用一年后,所调查的测试组中也没有一个符合关节器互换性的标准。
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来源期刊
Journal of Prosthetic Dentistry
Journal of Prosthetic Dentistry 医学-牙科与口腔外科
CiteScore
7.00
自引率
13.00%
发文量
599
审稿时长
69 days
期刊介绍: The Journal of Prosthetic Dentistry is the leading professional journal devoted exclusively to prosthetic and restorative dentistry. The Journal is the official publication for 24 leading U.S. international prosthodontic organizations. The monthly publication features timely, original peer-reviewed articles on the newest techniques, dental materials, and research findings. The Journal serves prosthodontists and dentists in advanced practice, and features color photos that illustrate many step-by-step procedures. The Journal of Prosthetic Dentistry is included in Index Medicus and CINAHL.
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