利用三维（3D）数据库简化面部假体制造的数字化工作流程：设置、开发和用于复制的虚拟数据验证方面。

Simplifying the digital workflow of facial prostheses manufacturing using a three-dimensional (3D) database: setup, development, and aspects of virtual data validation for reproduction.

机构信息

Department of Prosthodontics at the Centre of Dentistry, Oral Medicine, and Maxillofacial Surgery with Dental School, Tuebingen University Hospital, Tuebingen, Germany; Department of Dental Surgery, Sechenov First Moscow State Medical University, Moscow, Russia.

Section Medical Materials and Science, Tuebingen University Hospital, Tuebingen, Germany.

出版信息

J Prosthodont Res. 2019 Jul;63(3):313-320. doi: 10.1016/j.jpor.2019.01.004. Epub 2019 Feb 18.

DOI:10.1016/j.jpor.2019.01.004

PMID:30792148

Abstract

PURPOSE

To set up the digital database (DDB) of various anatomical parts, skin details and retention elements in order to simplify the digital workflow of facial prostheses manufacturing; and to quantify the reproduction of skin wrinkles on the prostheses prototypes with stereolithography (SLA) and direct light processing (DLP) methods.

METHODS

Two structured light scanners were used to obtain the nasal and auricle forms of 50 probands. Furthermore, the ala nasi and scapha areas were captured with the digital single lens reflex camera and saved in jpeg format. The four magnetic retention elements were remodeled in computer aided design (CAD) software. The 14 test blocks with embossed wrinkles of 0.05-0.8mm were printed with SLA and DLP methods and afterwards analyzed by means of profilometry and confocal microscopy.

RESULTS

The introduced DDB allows for production of customized facial prosthesis and makes it possible to consider the integration of concrete retention elements on the CAD stage, which makes the prosthesis modelling more predictable and efficient. The obtained skin structures can be applied onto the prosthesis surface for customization. The reproduction of wrinkles from 0.1 to 0.8mm in depth may be associated with the loss of 4.5%-11% of its profile with SLA or DLP respectively. Besides, the reproduction of 0.05mm wrinkles may be met with up to 40% profile increasement.

CONCLUSIONS

The utilization of DDB may simplify the digital workflow of facial prostheses manufacturing. The transfer of digitally applied skin wrinkles till the prostheses' prototypes may be associated with deviations from 11 to 40%.

摘要

目的

建立各种解剖部位、皮肤细节和保留元件的数字数据库（DDB），以简化面部假体制造的数字化工作流程；并通过立体光固化（SLA）和直接光处理（DLP）方法量化假体原型上皮肤皱纹的再现。

方法

使用两台结构光扫描仪获取 50 名受试者的鼻和耳形状。此外，使用数码单镜头反光相机捕捉鼻翼和耳甲区域，并以 jpeg 格式保存。四个磁性保留元件在计算机辅助设计（CAD）软件中进行了重塑。使用 SLA 和 DLP 方法打印带有压纹皱纹的 14 个测试块，皱纹深度为 0.05-0.8mm，然后通过轮廓法和共聚焦显微镜进行分析。

结果

引入的 DDB 允许生产定制的面部假体，并使考虑在 CAD 阶段集成具体保留元件成为可能，从而使假体建模更具可预测性和效率。获得的皮肤结构可应用于假体表面进行定制。深度为 0.1 至 0.8mm 的皱纹再现可能与 SLA 或 DLP 分别损失其轮廓的 4.5%-11%相关。此外，0.05mm 皱纹的再现可能会导致轮廓增加高达 40%。

结论

DDB 的使用可以简化面部假体制造的数字化工作流程。将数字应用的皮肤皱纹转移到假体原型上可能会导致 11%至 40%的偏差。

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利用三维（3D）数据库简化面部假体制造的数字化工作流程：设置、开发和用于复制的虚拟数据验证方面。

Simplifying the digital workflow of facial prostheses manufacturing using a three-dimensional (3D) database: setup, development, and aspects of virtual data validation for reproduction.

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出版信息

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