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CAD/CAM钴铬合金和氧化锆全牙弓固定修复体的生物力学行为

Biomechanical behavior of CAD/CAM cobalt-chromium and zirconia full-arch fixed prostheses.

作者信息

Barbin Thaís, Silva Letícia Del Rio, Velôso Daniele Valente, Borges Guilherme Almeida, Presotto Anna Gabriella Camacho, Barão Valentim Adelino Ricardo, Groppo Francisco Carlos, Ferraz Mesquita Marcelo

机构信息

Department of Prosthodontics and Periodontology, Piracicaba Dental School, University of Campinas, Piracicaba, Brazil.

Department of Physiological Sciences, Piracicaba Dental School, University of Campinas, Piracicaba, Brazil.

出版信息

J Adv Prosthodont. 2020 Dec;12(6):329-337. doi: 10.4047/jap.2020.12.6.329. Epub 2020 Dec 28.

DOI:10.4047/jap.2020.12.6.329
PMID:33489016
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7790600/
Abstract

PURPOSE

To verify the influence of computer-aided design/computer-aided manufacturing (CAD/CAM) implant-supported prostheses manufactured with cobalt-chromium (Co-Cr) and zirconia (Zr), and whether ceramic application, spark erosion, and simulation of masticatory cycles modify biomechanical parameters (marginal fit, screw-loosening torque, and strain) on the implant-supported system.

MATERIALS AND METHODS

Ten full-arch fixed frameworks were manufactured by a CAD/CAM milling system with Co-Cr and Zr (n=5/group). The marginal fit between the abutment and frameworks was measured as stated by single-screw test. Screw-loosening torque evaluated screw stability, and strain analysis was explored on the implant-supported system. All analyses were performed at 3 distinct times: after framework manufacturing; after ceramic application in both materials' frameworks; and after the spark erosion in Co-Cr frameworks. Afterward, stability analysis was re-evaluated after 10 mechanical cycles (2 Hz/150-N) for both materials. Statistical analyses were performed by Kruskal-Wallis and Dunn tests (α=.05).

RESULTS

No difference between the two materials was found for marginal fit, screw-loosening torque, and strain after framework manufacturing (>.05). Ceramic application did not affect the variables (>.05). Spark erosion optimized marginal fit and strain medians for Co-Cr frameworks (<.05). Screw-loosening torque was significantly reduced by masticatory simulation (<.05) regardless of the framework materials.

CONCLUSION

Co-Cr and Zr frameworks presented similar biomechanical behavior. Ceramic application had no effect on the biomechanical behavior of either material. Spark erosion was an effective technique to improve Co-Cr biomechanical behavior on the implant-supported system. Screw-loosening torque was reduced for both materials after masticatory simulation.

摘要

目的

验证采用钴铬合金(Co-Cr)和氧化锆(Zr)制造的计算机辅助设计/计算机辅助制造(CAD/CAM)种植体支持的修复体的影响,以及陶瓷应用、电火花加工和咀嚼循环模拟是否会改变种植体支持系统的生物力学参数(边缘适合性、螺丝松动扭矩和应变)。

材料与方法

通过CAD/CAM铣削系统用Co-Cr和Zr制造十个全牙弓固定框架(每组n = 5)。按照单螺丝试验所述测量基台与框架之间的边缘适合性。评估螺丝松动扭矩以确定螺丝稳定性,并在种植体支持系统上进行应变分析。所有分析均在三个不同时间进行:框架制造后;两种材料框架的陶瓷应用后;以及Co-Cr框架的电火花加工后。之后,对两种材料在10个机械循环(2 Hz/150-N)后重新评估稳定性分析。采用Kruskal-Wallis和Dunn检验进行统计分析(α = .05)。

结果

框架制造后,两种材料在边缘适合性、螺丝松动扭矩和应变方面均未发现差异(> .05)。陶瓷应用未影响这些变量(> .05)。电火花加工优化了Co-Cr框架的边缘适合性和应变中位数(< .05)。无论框架材料如何,咀嚼模拟均显著降低了螺丝松动扭矩(< .05)。

结论

Co-Cr和Zr框架表现出相似的生物力学行为。陶瓷应用对两种材料的生物力学行为均无影响。电火花加工是改善种植体支持系统上Co-Cr生物力学行为的有效技术。咀嚼模拟后两种材料的螺丝松动扭矩均降低。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e3f2/7790600/858b9e83b37e/jap-12-329-g009.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e3f2/7790600/83d2c875ad50/jap-12-329-g001.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e3f2/7790600/83d2c875ad50/jap-12-329-g001.jpg
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