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CAD/CAM 与常规技术在种植体支持框架制作中的比较:体外研究的系统评价和荟萃分析。

CAD/CAM vs Conventional Technique for Fabrication of Implant-Supported Frameworks: A Systematic Review and Meta-analysis of In Vitro Studies.

出版信息

Int J Prosthodont. 2019 Mar/Apr;32(2):182-192. doi: 10.11607/ijp.5616.

DOI:10.11607/ijp.5616
PMID:30856643
Abstract

PURPOSE

To compare the marginal vertical misfit between implant-supported frameworks fabricated using CAD/CAM systems and the conventional technique (lost-wax casting).

MATERIALS AND METHODS

This review was performed according to PRISMA criteria and registered on PROSPERO (CRD42017055685). An electronic search was performed independently by two examiners in the MEDLINE (Pubmed), Embase, Web of Science, and Cochrane Library databases to find studies published up to April 2018.

RESULTS

The database search yielded 507 references. After removing duplicate references, 384 studies remained. Eleven in vitro studies were selected according to the eligibility criteria (inter-reader κ = 0.88). Nine different CAD/CAM systems were used to fabricate 172 frameworks of different materials, including zirconia, monolithic lithium disilicate, and metallic alloys. Subgroup analyses were performed for different types and retention systems of the frameworks. In the general analysis, marginal misfit observed with the CAD/CAM systems was lower than with the conventional method (P = .003), as was observed in the subgroup analysis for single-unit frameworks (P < .00001). For fixed (P = .89), cemented (P = .60), and screwed (P = .18) frameworks, no significant difference was observed between the evaluated techniques.

CONCLUSION

The CAD/CAM systems showed improved marginal fit over the conventional lost-wax casting technique for fabricating single-unit frameworks; however, in the subgroup analyses, no difference was observed for the fixed implant-supported type or for the retention systems evaluated.

摘要

目的

比较 CAD/CAM 系统制作的种植体支持框架与传统失蜡铸造技术的边缘垂直不匹配。

材料和方法

本综述按照 PRISMA 标准进行,并在 PROSPERO(CRD42017055685)上进行了注册。两名审查员独立在 MEDLINE(Pubmed)、Embase、Web of Science 和 Cochrane 图书馆数据库中进行电子检索,以查找截至 2018 年 4 月发表的研究。

结果

数据库检索得到 507 条参考文献。去除重复参考文献后,仍有 384 项研究。根据入选标准,选择了 11 项体外研究(读者间 κ = 0.88)。使用了 9 种不同的 CAD/CAM 系统来制作不同材料的 172 个框架,包括氧化锆、整体式二硅酸锂和金属合金。对不同类型和保留系统的框架进行了亚组分析。在一般分析中,CAD/CAM 系统观察到的边缘不匹配低于传统方法(P =.003),亚组分析中单单位框架也是如此(P <.00001)。对于固定(P =.89)、粘结(P =.60)和旋入(P =.18)框架,评估技术之间未观察到显著差异。

结论

CAD/CAM 系统在制作单单位框架方面显示出比传统失蜡铸造技术更好的边缘适配性;然而,在亚组分析中,对于固定种植体支持类型或评估的保留系统,未观察到差异。

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