氧化锆基台适配精度与抗折性之间关系的实验研究
Experimental research on the relationship between fit accuracy and fracture resistance of zirconia abutments.
作者信息
Sui Xinxin, Wei Huasha, Wang Dashan, Han Yan, Deng Jing, Wang Yongliang, Wang Junjun, Yang Jianjun
机构信息
Oral and Maxillofacial Surgery, Affiliated Hospital, Qingdao University, Qingdao, China.
Department of Stomatology, Qingdao Eighth People's Hospital, Qingdao, China.
出版信息
J Dent. 2014 Oct;42(10):1353-9. doi: 10.1016/j.jdent.2014.02.008. Epub 2014 Feb 18.
OBJECTIVES
The purpose of the study was to investigate the correlation between fit accuracy and fracture resistance of zirconia abutments, as well as its feasibility for clinical applications.
METHODS
Twenty self-made zirconia abutments were tested with 30 Osstem GSII implants. First, 10 Osstem GSII implants were cut into two parts along the long axis and assembled with the zirconia abutments. The microgaps between the implants and the zirconia abutments were measured under a scanning electron microscope. Second, the zirconia abutments were assembled with 20 un-cut implants and photographed before and after being fixed with a central screw of 30-Ncm torque. The dental films were measured by Digora for Windows 2.6 software. Then the fracture resistance of zirconia abutments was measured using the universal testing machine at 90°. All results were analyzed using SPSS13.0 software.
RESULTS
The average internal-hexagon microgaps between the implants and zirconia abutments were 19.38±1.34μm. The average Morse taper microgap in the implant-abutment interface was 17.55±1.68μm. The dental film showed that the Morse taper gap in the implant-abutment interface disappeared after being fixed with a central screw of 30-Ncm torque, and the average moving distance of the zirconia abutments to the implants was 0.19±0.02mm. The average fracture resistance of zirconia abutments was 282.93±17.28N. The internal-hexagon microgap between the implants and zirconia abutments was negatively related to the fracture resistance of the abutments (r1=-0.97, p<0.01). The Morse taper microgap in the implant-abutment interface was negatively related to the fracture resistance of the abutments (r2=-0.84, p<0.01).
CONCLUSIONS
The microgap between implant and abutment was negatively related to the fracture resistance of the abutment, while the internal-hexagon microgap has better correlation than the Morse taper microgap. The closure of microgap is helpful to improve the fracture resistance of zirconia abutments. The fracture resistance of zirconia abutments can satisfy the clinical application.
目的
本研究旨在探讨氧化锆基台的适合精度与抗折强度之间的相关性,及其临床应用的可行性。
方法
使用30颗奥齿泰GSII种植体对20个自制氧化锆基台进行测试。首先,将10颗奥齿泰GSII种植体沿长轴切成两部分,并与氧化锆基台组装。在扫描电子显微镜下测量种植体与氧化锆基台之间的微间隙。其次,将氧化锆基台与20颗未切割的种植体组装,并在使用30N·cm扭矩的中心螺丝固定前后拍照。使用Digora for Windows 2.6软件测量牙科X光片。然后使用万能试验机在90°测量氧化锆基台的抗折强度。所有结果均使用SPSS13.0软件进行分析。
结果
种植体与氧化锆基台之间的平均内六角微间隙为19.38±1.34μm。种植体-基台界面处的平均莫氏锥度微间隙为17.55±1.68μm。牙科X光片显示,使用30N·cm扭矩的中心螺丝固定后,种植体-基台界面处的莫氏锥度间隙消失,氧化锆基台相对于种植体的平均移动距离为0.19±0.02mm。氧化锆基台的平均抗折强度为282.93±17.28N。种植体与氧化锆基台之间的内六角微间隙与基台的抗折强度呈负相关(r1=-0.97,p<0.01)。种植体-基台界面处的莫氏锥度微间隙与基台的抗折强度呈负相关(r2=-0.84,p<0.01)。
结论
种植体与基台之间的微间隙与基台的抗折强度呈负相关,而内六角微间隙的相关性优于莫氏锥度微间隙。微间隙闭合有助于提高氧化锆基台的抗折强度。氧化锆基台的抗折强度能够满足临床应用。
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