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用于微型种植体植入的硬腭前部第三皱襞水平的三维解剖学探索——一项锥形束CT研究

Three dimensional anatomical exploration of the anterior hard palate at the level of the third ruga for the placement of mini-implants--a cone-beam CT study.

作者信息

Hourfar Jan, Kanavakis Georgios, Bister Dirk, Schätzle Marc, Awad Layla, Nienkemper Manuel, Goldbecher Christine, Ludwig Björn

机构信息

*Private Practice, Reinheim, Germany, **Department of Orthodontics, University of Heidelberg, Germany.

***Department of Orthodontics, Tufts University School of Dental Medicine, Boston, MA, USA.

出版信息

Eur J Orthod. 2015 Dec;37(6):589-95. doi: 10.1093/ejo/cju093. Epub 2015 Jan 6.

DOI:10.1093/ejo/cju093
PMID:25564503
Abstract

AIM

The aim of this retrospective investigation was to measure vertical bone thickness on the hard palate, determine areas with adequate bone for the insertion of orthodontic mini-implants (MIs), and provide clinical guidelines for identification of those areas.

MATERIALS AND METHODS

Pre-treatment records of 1007 patients were reviewed by a single examiner. A total of 125 records fulfilled the inclusion criteria and were further investigated. Bone measurements were performed on cone-beam computed tomography scans, at a 90° angle to the bone surface, on 28 predetermined and standardized points on the hard palate. Bone thickness at various areas was associated to clinically identifiable areas on the hard palate by means of pre-treatment plaster models.

RESULTS

Bone thickness ranged between 1.51 and 13.86 mm (total thickness) and 0.33 and 1.65 mm (cortical bone thickness), respectively. Bone thickness was highest in the anterior palate and decreased significantly towards more posterior areas. Plaster model analysis revealed that bone thickness was highest at the level of the third palatal ruga.

CONCLUSIONS

The areas on the anterior palate with adequate bone thickness for successful insertion of orthodontic MI correspond to the region of the third palatal ruga. These results provide stable and clinically identifiable landmarks for the insertion of palatal MIs.

摘要

目的

本回顾性研究旨在测量硬腭的垂直骨厚度,确定有足够骨量用于植入正畸微型种植体(MIs)的区域,并提供识别这些区域的临床指南。

材料与方法

由一名检查者回顾1007例患者的治疗前记录。共有125份记录符合纳入标准并进一步研究。在锥形束计算机断层扫描上,以与骨表面成90°角的方式,在硬腭上28个预先确定的标准化点进行骨测量。通过治疗前的石膏模型,将不同区域的骨厚度与硬腭上可临床识别的区域相关联。

结果

骨厚度分别在1.51至13.86毫米(总厚度)和0.33至1.65毫米(皮质骨厚度)之间。骨厚度在前腭最高,向更后方的区域显著降低。石膏模型分析显示,在第三腭皱襞水平骨厚度最高。

结论

前腭有足够骨厚度以成功植入正畸微型种植体的区域对应于第三腭皱襞区域。这些结果为腭部微型种植体的植入提供了稳定且可临床识别的标志。

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