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不同面部形态和牙弓形态受试者皮质骨厚度的三维映射:一项锥形束计算机断层扫描分析

3-D mapping of cortical bone thickness in subjects with different face form and arch form: A CBCT analysis.

作者信息

Chaturvedi S, Alfarsi M A

机构信息

Department of Prosthetic Dentistry, College of Dentistry, King Khalid University, Abha, Saudi Arabia.

出版信息

Niger J Clin Pract. 2019 May;22(5):616-625. doi: 10.4103/njcp.njcp_642_18.

DOI:10.4103/njcp.njcp_642_18
PMID:31089015
Abstract

OBJECTIVE

To determine the relationship between face form (FF), arch form (AF), and cortical bone thickness in anterior and posterior region of the mandibular jaws, using cone beam computed tomography (CBCT).

PATIENTS AND METHODS

Total 90 subjects were selected. For each subject FF (euryprosopic, mesoprosopic, and leptoprosopic) was determined using Prosopic Index. CBCT scans were done for each subject to determine mandibular AF (as tapered, oval, or square in horizontal sections) and cortical bone thickness (at two vertical levels 4 and 7 mm from the alveolar crest in the anterior and posterior region of mandible in sagittal sections). Numerical data so obtained were analyzed using descriptive statistics, analysis of variance followed by Tukey HSD (honestly significant difference) test at a statistical significance level of 5%.

RESULTS

Significant difference in thickness of cortical bone was noted between various AF and face. In square AF, mean value of thickness of cortical bone was highest both at 4 and 7 mm vertical level and tapered AF had minimum mean values at 4 mm and oval at 7 mm in anterior region and posterior region on buccal and lingual sides, in all the three-FF.

CONCLUSION

Significant effects of FF and AF on cortical bone thickness were seen both on buccal and lingual side and the effect of AF was more compared to FF. The availability of the cortical bone in euryprosopic FF and square AF patients was more; therefore, implants with a shorter length may be used in these clinical cases.

摘要

目的

使用锥形束计算机断层扫描(CBCT)确定面部形态(FF)、牙弓形态(AF)与下颌骨前后区域皮质骨厚度之间的关系。

患者与方法

共选取90名受试者。使用面部指数确定每名受试者的FF(阔面型、中面型和窄面型)。对每名受试者进行CBCT扫描,以确定下颌AF(在水平截面中为锥形、椭圆形或方形)和皮质骨厚度(在矢状截面中,在下颌骨前后区域距牙槽嵴4毫米和7毫米的两个垂直水平处)。对如此获得的数值数据进行描述性统计分析,接着进行方差分析,然后在5%的统计学显著性水平下进行Tukey HSD(真实显著性差异)检验。

结果

在不同的AF和面部之间观察到皮质骨厚度存在显著差异。在方形AF中,在4毫米和7毫米垂直水平处皮质骨厚度的平均值均最高,在所有三种FF类型的颊侧和舌侧的前部区域和后部区域,锥形AF在4毫米处的平均值最小,椭圆形在7毫米处的平均值最小。

结论

在颊侧和舌侧均观察到FF和AF对皮质骨厚度有显著影响,并且与FF相比,AF的影响更大。阔面型FF和方形AF患者的皮质骨可用性更高;因此,在这些临床病例中可以使用较短长度的种植体。

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