可加压锂硅酸钠在磨牙上用作超薄牙合面贴面的抗压能力。
Load-bearing capacity of pressable lithium disilicates applied as ultra-thin occlusal veneers on molars.
机构信息
University of Zurich, Center of Dental Medicine, Clinic of Reconstructive Dentistry, Zurich, Switzerland.
University of Zurich, Center of Dental Medicine, Clinic of Reconstructive Dentistry, Zurich, Switzerland; University of Bern, Department of Reconstructive Dentistry and Gerodontology, School of Dental Medicine, Bern, Switzerland.
出版信息
J Mech Behav Biomed Mater. 2022 Dec;136:105520. doi: 10.1016/j.jmbbm.2022.105520. Epub 2022 Oct 13.
PURPOSE
The aim was to investigate the load bearing capacity of different pressable lithium disilicates cemented as occlusal veneers on molars.
MATERIALS AND METHODS
One control group and six test groups were formed consisting of 20 specimens each (n = 20). The six test groups differed in the utilizing pressable lithium disilicate to fabricate occlusal veneers. As a control group, "group Lis", the lithium disilicate with the highest reported flexural strength was used (initial LiSi Press, GC Europe; Leuven, Belgium / flexural strength: 508 MPa). The test groups consisted of other pressable lithium disilicates with lower flexural strength values: "Ema" (IPS e.max press), "Vit" (VITA Ambria), "Liv" (Livento Press), "Amb" (Amber Press), "Mas" (Amber Press Master) and "Ros" (Rosetta SP)". After the preparation of 140 extracted human molars, which included the removal of the central enamel, the specimens were scanned using a desktop scanner. With the aid of a design software, the occlusal veneers were designed in a standardized thickness of 0.5 mm. To fabricate the restorations, all tested materials were processed using heat-pressing technique. All restorations were adhesively cemented. Afterwards, the specimens underwent cyclic fatigue during an aging procedure in a chewing simulator (1'200'000 chewing-cycles, 49 N force, 5-55°C temperature changes). Subsequently, the specimens were statically loaded and the load which was necessary to fracture the specimen (F) were measured. Differences between the groups were compared applying the Kruskal-Wallis (KW) test and the Wilcoxon-Mann-Whitney-Test (WMW: p < 0.05). The two-parameter Weibull distribution values were calculated.
RESULTS
The fatigue resistance was 100% for the groups Lis, Vit, Liv, Amb, Mas and Ros, whereas the group Ema showed a fatigue resistance of 95%. The control group Lis showed median F values of 2'328 N. The median F values for the test groups ranged between 1'753 N (Vit) and 2'490 N (Ros). Statistically significant difference was observed among the groups Lis (control) and Vit (KW: p < 0.001). Weibull distribution presented the highest shape values for the group Ros (12.83) and the lowest values for the group Ema (4.71).
CONCLUSION
Regarding their load-bearing capacity different pressable lithium disilicates can be recommended to fabricate ultra-thin occlusal veneers on molars when restoring occlusal tooth wear.
目的
研究不同可压锂硅酸盐作为磨牙咬合贴面的承载能力。
材料和方法
形成一个对照组和六个实验组,每组 20 个标本(n=20)。六个实验组在使用可压锂硅酸盐制作咬合贴面方面有所不同。作为对照组,“组 Lis”使用报告中抗弯强度最高的锂硅酸盐(初始 LiSi Press,GC Europe;比利时鲁汶/抗弯强度:508 MPa)。实验组由其他抗弯强度值较低的可压锂硅酸盐组成:“Ema”(IPS e.max press)、“Vit”(VITA Ambria)、“Liv”(Livento Press)、“Amb”(Amber Press)、“Mas”(Amber Press Master)和“Ros”(Rosetta SP)。在准备 140 个提取的人磨牙后,包括去除中央釉质,使用台式扫描仪对标本进行扫描。借助设计软件,以标准化厚度 0.5 毫米设计咬合贴面。为了制作修复体,所有测试材料均采用热压技术加工。所有修复体均采用粘固剂粘固。之后,在咀嚼模拟器中进行老化程序中的循环疲劳(1'200'000 次咀嚼循环,49 N 力,5-55°C 温度变化)。随后,对标本进行静态加载,并测量使标本断裂所需的载荷(F)。应用 Kruskal-Wallis(KW)检验和 Wilcoxon-Mann-Whitney-Test(WMW:p<0.05)比较组间差异。计算双参数 Weibull 分布值。
结果
组 Lis、Vit、Liv、Amb、Mas 和 Ros 的疲劳阻力为 100%,而组 Ema 的疲劳阻力为 95%。对照组 Lis 的中位 F 值为 2'328 N。实验组的中位 F 值范围为 1'753 N(Vit)至 2'490 N(Ros)。组 Lis(对照组)和 Vit(KW:p<0.001)之间存在统计学显著差异。Weibull 分布显示组 Ros 的形状值最高(12.83),组 Ema 的形状值最低(4.71)。
结论
在修复咬合面磨损时,对于磨牙超薄片咬合贴面的承载能力,不同的可压锂硅酸盐均可推荐使用。
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