Effect of different impression techniques on marginal integrity of CAD-CAM milled all-on-four mandibular frameworks: an in vitro study.

IF 2.6 2区医学 Q1 DENTISTRY, ORAL SURGERY & MEDICINE

BMC Oral Health Pub Date : 2025-04-07 DOI:10.1186/s12903-025-05784-y

Reem A Mahmoud, Ahmed A Abdel Hakim, Nermeen A Rady

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引用次数: 0

Abstract

Background: To guarantee a passive fit, full arch implant supported prostheses require scrupulous impressions. The accuracy of conventional and digital impressions is still up for debate, despite several studies comparing both acquisition techniques. The present study aimed to compare mandibular full arch implant impressions by assessing the vertical misfit of implant supported frameworks obtained through conventional and digital impressions.

Methods: To simulate the "All-on-4" scenario, a completely edentulous epoxy mandibular reference model was prepared with the installment of two straight implants in the anterior region and two 30-degree angled implants in the posterior region. Two acquisition techniques were evaluated: the conventional impression technique (CI group, n = 11) with open tray splinted impression copings using vinyl siloxane ether (VSXE) impression and the digital impression technique (DI group, n = 11) using Medit i-700 intraoral scanner (IOS). To create virtual models, the Medit T-Series laboratory scanner was used to scan the models created by the CI group. Scans obtained from both groups were saved as STL files for framework design. Screw retained bars (n = 22) were designed on the virtual models and then machined in cobalt chromium. The frameworks fabricated using both impressions were screwed to the reference model, evaluated using the Sheffield test, and the vertical misfits were analyzed under a stereomicroscope at 80× magnification. Comparisons between the two study groups were performed using independent samples t-test, and the average vertical misfits of each multi-unit abutment in each group were compared by using the ANOVA test followed by a Post Hoc test (adjusted Bonferroni) for pairwise comparison. At P <.05, statistical significance was assessed.

Results: When tightening the screw at multi-unit abutment #45, the vertical misfits of the frameworks manufactured by DI group (82.34 ± 5.05 μm) were lower than those of the CI group (91.09 ± 6.29 μm) with significant difference at P =.002, while no statistical significant difference was reported in the average vertical misfit between the CI group (43.60 ± 11.93 μm) and the DI group (43.90 ± 5.31 μm) (P =.940) while securing the screw at multi-unit abutment #35.

Conclusions: Achieving a passive fit for implant supported frameworks in completely edentulous patients is quite challenging. A fully digital workflow offers a steadfast alternative to conventional methods with vertical misfits that differ based on the impression technique, though these differences are typically not statistically significant.

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背景：为了保证被动配合，全牙弓种植义齿需要严格的印模。尽管有多项研究对两种印模采集技术进行了比较，但传统印模和数字印模的准确性仍存在争议。本研究旨在通过评估通过传统印模和数字印模获得的种植体支持框架的垂直错位，对下颌全弓种植体印模进行比较：方法：为了模拟 "All-on-4 "的情况，准备了一个完全无牙的环氧树脂下颌参考模型，在前牙区域安装了两个直的种植体，在后牙区域安装了两个30度角的种植体。对两种采集技术进行了评估：使用乙烯基硅氧烷醚（VSXE）印模的传统印模技术（CI 组，n = 11）和使用 Medit i-700 口内扫描仪（IOS）的数字印模技术（DI 组，n = 11）。为了创建虚拟模型，使用 Medit T 系列实验室扫描仪扫描 CI 组创建的模型。两组的扫描结果都保存为 STL 文件，用于框架设计。在虚拟模型上设计螺钉固位杆（n = 22），然后用钴铬合金加工。使用两种印模制作的骨架与参考模型拧紧，使用谢菲尔德测试进行评估，并在 80 倍放大的体视显微镜下分析垂直错位。两个研究组之间的比较采用独立样本 t 检验，每组中每个多单位基台的平均垂直误差比较采用方差分析检验，然后进行配对比较的事后检验（调整后的 Bonferroni）。在 P 结果：拧紧 45 号多单位基台的螺丝时，DI 组制作的基台的垂直误差（82.34 ± 5.05 μm）低于 CI 组（91.09 ± 6.29 μm），差异有显著性（P =.002，而CI组（43.60 ± 11.93 μm）和DI组（43.90 ± 5.31 μm）之间的平均垂直不密合度（P =.940）在多单位基台#35处固定螺钉时没有统计学意义上的显著差异：在全口无牙患者中实现种植体支持骨架的被动配合具有相当大的挑战性。全数字化工作流程为传统方法提供了一个稳定的替代方案，其垂直方向的错位因印模技术的不同而不同，但这些差异通常在统计学上并不显著。

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来源期刊

BMC Oral Health DENTISTRY, ORAL SURGERY & MEDICINE-

CiteScore

3.90

自引率

6.90%

发文量

481

审稿时长

6-12 weeks

期刊介绍： BMC Oral Health is an open access, peer-reviewed journal that considers articles on all aspects of the prevention, diagnosis and management of disorders of the mouth, teeth and gums, as well as related molecular genetics, pathophysiology, and epidemiology.