Accuracy of template-based guided dental implant placement—An in vitro comparison of different manufacturing methods

IF 4.8 1区医学 Q1 DENTISTRY, ORAL SURGERY & MEDICINE Clinical Oral Implants Research Pub Date : 2024-04-17 DOI:10.1111/clr.14272

Aura Sium-Abel, Ludger Keilig, Istabrak Dörsam, Christoph Bourauel

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Abstract

Objectives

This study investigates effects of surgical guide manufacturing process on 3D transfer accuracy of planned dental implant position, using three production methods: additive 3D-printed (3DF), subtractive milled (MF), and analog laboratory fabricated templates (LF).

Material and Methods

Implant position for a single-tooth gap (#26) planned digitally. 3DF and MF templates were designed digitally, while LF templates were analogously created. For each manufacturing type, 10 surgical guides were fabricated. Each guide was used for template-guided implant placement in model replicas. For evaluation of implant placement, cone beam computed tomography scans of all implanted models were superimposed, and implant positions were determined. Deviations at implant shoulder/apex were measured, and median and inter-quartile range (IQR) were determined for mesio-distal, oro-facial, coronal apico, 3D spaces, and angles.

Results

At implant shoulder, vertical components dominated position deviations (up to 1.04 mm, IQR 0.28 mm for 3DF). Horizontal deviations were much lower (mesio-distally up to 0.38 mm, IQR 0.36 mm (LF)). Implant apex shows similar vertical deviations, while horizontal deviations clearly increased compared to shoulder, especially in mesio-distal direction. Median angular deviations were between 2.1° (IQR 2.0 mm, max. 4.2°) for 3DF and 3.3° (IQR 1.9 mm, max. 5.3°) for MF. No statistical differences were found between manufacturing types (Kruskal–Wallis test, p = .05).

Conclusions

The study showed the method of implant guide fabrication did not affect the accuracy of implant placement within the limits of an in vitro environment. All methods resulted in implant placement which did not exceed the accepted safety deviation envelope (1.5–2.0 mm).

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基于模板引导的牙科植入物植入精度--不同制造方法的体外比较

材料和方法以数字方式规划单齿间隙（26 号）的种植体位置。3DF和MF模板采用数字化设计，LF模板采用模拟制作。每种制造类型都制作了 10 个手术导板。每个导板都用于在模板引导下在模型复制品中植入种植体。为评估植入位置，对所有植入模型进行锥形束计算机断层扫描，并确定植入位置。测量了种植体肩部/顶部的偏差，并确定了中远端、口面部、冠状面、三维空间和角度的中位数和四分位数间距（IQR）。结果在种植体肩部，垂直方向的偏差最大（达 1.04 毫米，3DF 的 IQR 为 0.28 毫米）。水平偏差要小得多（中轴偏差达 0.38 毫米，IQR 0.36 毫米（LF））。种植体顶点显示出相似的垂直偏差，而水平偏差与肩部相比明显增大，尤其是在中远端方向。3DF的中位角度偏差为2.1°（IQR为2.0 mm，最大为4.2°），MF的中位角度偏差为3.3°（IQR为1.9 mm，最大为5.3°）。研究结果表明，在体外环境下，种植导板的制作方法不会影响种植体植入的准确性。所有方法都能使种植体植入不超过公认的安全偏差范围（1.5-2.0 毫米）。

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来源期刊

Clinical Oral Implants Research 医学-工程：生物医学

CiteScore

7.70

自引率

11.60%

发文量

149

审稿时长

3 months

期刊介绍： Clinical Oral Implants Research conveys scientific progress in the field of implant dentistry and its related areas to clinicians, teachers and researchers concerned with the application of this information for the benefit of patients in need of oral implants. The journal addresses itself to clinicians, general practitioners, periodontists, oral and maxillofacial surgeons and prosthodontists, as well as to teachers, academicians and scholars involved in the education of professionals and in the scientific promotion of the field of implant dentistry.