制作工艺对牙种植手术导板精度的影响

Effect of Fabrication Technology on the Accuracy of Surgical Guides for Dental-Implant Surgery.

作者信息

Lo Russo Lucio, Guida Laura, Mariani Pierluigi, Ronsivalle Vincenzo, Gallo Crescenzio, Cicciù Marco, Laino Luigi

机构信息

Department of Clinical and Experimental Medicine, School of Dentistry, University of Foggia, 71122 Foggia, Italy.

Salus Oris Srl, 83050 Vallesaccarda, Italy.

出版信息

Bioengineering (Basel). 2023 Jul 24;10(7):875. doi: 10.3390/bioengineering10070875.

DOI:10.3390/bioengineering10070875

PMID:37508902

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10376300/

Abstract

BACKGROUND

The accuracy of surgical guides is a relevant factor in both surgical safety and prosthetic implications. The impact of widespread fabrication technologies (milling and 3D printing) was investigated.

METHODS

Surgical guides manufactured by means of two specific milling and 3D-printing systems were digitized and compared in a 3D analysis with the digital file of the designed guides. The surface mean 3D distance (at the surface where the teeth and mucosa made contact) and the axial and linear deviations of the sleeves' housings were measured by means of a metrological software program. Univariate and multivariate statistical analyses were used to investigate the effects of the fabrication technology, type of support, and arch type on the surgical guides' accuracy.

RESULTS

The median deviations of the intaglio surface in contact with the mucosa were significantly ( < 0.001) lower for the milled surgical guides (0.05 mm) than for the 3D-printed guides (-0.07 mm), in comparison with the reference STL file. The generalized estimated equation models showed that the axial deviations of the sleeves' housings (a median of 0.82 degrees for the milling, and 1.37 degrees for the 3D printing) were significantly affected by the fabrication technology ( = 0.011) (the milling exhibited better results), the type of support ( < 0.001), and the combined effect of the fabrication technology and the sleeve-to-crest angle ( = 0.003). The linear deviation (medians of 0.12 mm for the milling and 0.21 mm for the 3D printing) of their center points was significantly affected by the type of support ( = 0.001), with the milling performing slightly better than the 3D printing.

CONCLUSIONS

The magnitude of the difference might account for a limited clinical significance.

摘要

背景

手术导板的准确性是手术安全性和修复效果的一个相关因素。本研究调查了广泛应用的制作技术（铣削和3D打印）的影响。

方法

通过两种特定的铣削和3D打印系统制作的手术导板被数字化，并在三维分析中与设计导板的数字文件进行比较。使用计量软件程序测量表面平均三维距离（在牙齿与黏膜接触的表面）以及套筒外壳的轴向和线性偏差。采用单变量和多变量统计分析来研究制作技术、支撑类型和牙弓类型对手术导板准确性的影响。

结果

与参考STL文件相比，铣削制作的手术导板与黏膜接触的凹面的中位偏差（0.05毫米）显著低于3D打印导板（-0.07毫米）（<0.001）。广义估计方程模型显示，套筒外壳的轴向偏差（铣削的中位数为0.82度，3D打印的为1.37度）受制作技术（=0.011）（铣削表现更好）、支撑类型（<0.001）以及制作技术与套筒至牙槽嵴角度的联合效应（=0.003）的显著影响。其中心点的线性偏差（铣削的中位数为0.12毫米，3D打印的为0.21毫米）受支撑类型（=0.001）的显著影响，铣削的表现略优于3D打印。

结论

差异的大小可能具有有限的临床意义。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f782/10376300/3b0999f27aaa/bioengineering-10-00875-g001.jpg

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制作工艺对牙种植手术导板精度的影响

Effect of Fabrication Technology on the Accuracy of Surgical Guides for Dental-Implant Surgery.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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