Creating an anatomical wax-up in partially edentulous patients by means of a statistical shape model.

IF 1.8 4区 医学 Q2 DENTISTRY, ORAL SURGERY & MEDICINE International Journal of Computerized Dentistry Pub Date : 2022-11-25 DOI:10.3290/j.ijcd.b2599407
Leonard Simon Brandenburg, Steffen Jochen Schwarz, Benedikt Christopher Spies, Julia Vera Weingart, Joachim Georgii, Britta A Jung, Felix Burkhardt, Stefan Schlager, Marc Christian Metzger
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引用次数: 2

Abstract

Purpose: Creating wax-ups of missing teeth for backward planning in implant surgery is a complex and time-consuming process. To facilitate implant-planning procedures, the automatic generation of a virtual wax-up would be useful. In the present study, the reconstruction of missing teeth in partially edentulous patients was performed automatically using newly developed software. The accuracy was investigated in order to test its clinical applicability.

Materials and methods: This study presents a new method for creating an automatic virtual wax-up, which could serve as a basic tool in modern implant-planning procedures. First, a statistical shape model (SSM) based on 76 maxillary and mandibular arch scans from dentally healthy individuals was generated. Then, artificially generated tooth gaps were reconstructed. The accuracy of the workflow was evaluated on a separate testing sample of 10 individuals with artificially created tooth gaps given as a median deviation, in millimeters. Scans of three clinical cases with partial edentulism were equally reconstructed using the SSM and compared with the final prosthodontic work.

Results: The reconstruction of the artificial tooth gaps could be performed with the following median reconstruction accuracy: gap 21 with 0.15 mm; gap 27 with 0.20 mm; gap 34 with 0.22 mm: gap 36 with 0.22 mm; gaps 12 to 22 with 0.22 mm; gaps 34 to 36 with 0.22 mm. A scenario for an almost edentulous mandible with all teeth missing except teeth 33 and 43 could be reconstructed with a median reconstruction accuracy of 0.37 mm. The median tooth gap deviation of the SSM-based reconstruction in clinical cases differed from the final inserted prosthodontic teeth by 0.49 to 0.86 mm in median.

Conclusion: A first feasibility of creating virtual wax-ups using an SSM could be shown. Artificially generated tooth gaps could be reconstructed close to the original with the proposed workflow. In the clinical cases, the SSM proposes an anatomical reconstruction, which does not yet consider prosthodontic aspects. To obtain clinical use, contact with antagonist teeth must be considered and more training data must be implemented. However, the presented method offers a fast and viable way for the approximate placement of missing crowns. This could be used in a digital planning workflow when implant position must be determined. (Int J Comput Dent 2022;25(4):349-0; doi: 10.3290/j.ijcd.b2599407).

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通过统计形状模型在部分无牙患者中创建解剖蜡状。
目的:在种植手术中为向后规划的缺牙制作上蜡是一个复杂而耗时的过程。为了方便种植计划程序,自动生成虚拟上蜡将是有用的。本研究采用新开发的软件对部分无牙患者的缺牙进行自动修复。为检验其临床适用性,对其准确性进行了研究。材料和方法:本研究提出了一种自动虚拟上蜡的新方法,可作为现代种植计划程序的基本工具。首先,基于76例牙齿健康个体的上颌和下颌弓扫描生成统计形状模型(SSM)。然后重建人工生成的牙隙。工作流程的准确性在10个人的单独测试样本上进行评估,人工制造的牙齿间隙作为中位数偏差,以毫米为单位。使用SSM对3例局部全牙症患者进行扫描重建,并与最终修复结果进行比较。结果:人工牙间隙重建中位精度为:间隙21,0.15 mm;间隙27与0.20 mm;间隙34带0.22 mm:间隙36带0.22 mm;间隙12至22与0.22毫米;间隙34至36与0.22毫米。在几乎无牙的情况下,除第33和43号牙齿外,所有牙齿都缺失,重建的中位精度为0.37 mm。临床病例ssm重建牙间隙偏差中位数与最终种植义齿相差0.49 ~ 0.86 mm。结论:使用SSM创建虚拟上蜡的第一个可行性可以显示。根据所提出的工作流程,人工生成的齿隙可以重建到接近原始齿隙的位置。在临床病例中,SSM提出解剖重建,但尚未考虑修复方面。为了获得临床应用,必须考虑与拮抗剂牙齿接触,并且必须实施更多的训练数据。然而,该方法为缺失牙冠的近似定位提供了一种快速可行的方法。当必须确定种植体位置时,这可以用于数字规划工作流程。[J] .计算机学报;2009;25(4):349-0;doi: 10.3290 / j.ijcd.b2599407)。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
International Journal of Computerized Dentistry
International Journal of Computerized Dentistry Dentistry-Dentistry (miscellaneous)
CiteScore
2.90
自引率
0.00%
发文量
49
期刊介绍: This journal explores the myriad innovations in the emerging field of computerized dentistry and how to integrate them into clinical practice. The bulk of the journal is devoted to the science of computer-assisted dentistry, with research articles and clinical reports on all aspects of computer-based diagnostic and therapeutic applications, with special emphasis placed on CAD/CAM and image-processing systems. Articles also address the use of computer-based communication to support patient care, assess the quality of care, and enhance clinical decision making. The journal is presented in a bilingual format, with each issue offering three types of articles: science-based, application-based, and national society reports.
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