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两种不同自锁托槽正畸系统产生的应力的评估——有限元分析。

Evaluation of Stresses Generated with Two Different Self-Ligating Orthodontic Bracket Systems - A Finite Element Analysis.

机构信息

Department of Orthodontics and Dentofacial Orthopedics, Faculty of Dental Sciences, Ramaiah University of Applied Sciences, Bengaluru, Karnataka, India.

出版信息

Indian J Dent Res. 2024 Apr 1;35(2):131-135. doi: 10.4103/ijdr.ijdr_937_23. Epub 2024 Sep 14.

DOI:10.4103/ijdr.ijdr_937_23
PMID:39282772
Abstract

AIM

To determine stresses generated in the posterior teeth region by two different self-ligating systems, 3M Unitek SmartClip and Damon Q Self-ligating brackets, using the finite element method (FEM).

METHODOLOGY

Computed tomography (CT) scan of maxilla was taken using Mimics software, and the Dicom data were imported into Hypermesh 13.0 software to convert it into a geometric model and then into FEM. Physical models of both the brackets were constructed and positioned on the teeth. Post archwire modeling, contact is defined between the bracket slot and 0.014" NiTi arch wire. The final assembled model was exported to ANSYS 12.1 for analysis, and 60 grams of load was applied at the ends of the arch wire.

RESULTS

On using 0.014" CuNiTi in both the bracket systems, stresses generated on the root surface were found to be maximum on the first molar region, followed by the first premolar, second molar, canine, and second premolar regions. Comparison between the two bracket systems showed differences in the stresses generated, where higher stresses were generated at all regions in the Damon Q bracket system, except the inter-second premolar region.

CONCLUSION

Maximum stresses were observed with the 3M Unitek SmartClip bracket system at the second premolar cervical region when compared to the Damon Q system. In both the cortical bone and cancellous bone, maximum stresses were observed at the second premolar cervical in the Damon Q bracket system region.

摘要

目的

使用有限元法(FEM)确定两种不同自锁系统(3M Unitek SmartClip 和 Damon Q 自锁托槽)在后牙区域产生的应力。

方法

使用 Mimics 软件对上颌进行计算机断层扫描(CT),并将 Dicom 数据导入 Hypermesh 13.0 软件,将其转换为几何模型,然后转换为 FEM。构建了两个托槽的物理模型,并将其定位在牙齿上。后弓丝建模,定义了托槽槽和 0.014" NiTi 弓丝之间的接触。将最终组装的模型导出到 ANSYS 12.1 进行分析,并在弓丝的两端施加 60 克的载荷。

结果

在两种托槽系统中均使用 0.014" CuNiTi 时,发现牙根表面产生的应力在第一磨牙区域最大,其次是第一前磨牙、第二磨牙、犬齿和第二前磨牙区域。两种托槽系统之间的比较显示出产生的应力存在差异,除了第二前磨牙区域外,Damon Q 托槽系统在所有区域产生的应力都更高。

结论

与 Damon Q 系统相比,3M Unitek SmartClip 托槽系统在第二前磨牙颈缘区域观察到最大的应力。在皮质骨和松质骨中,Damon Q 托槽系统区域的第二前磨牙颈缘处观察到最大的应力。

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