Prott Lea Sophia, Spitznagel Frank Akito, Bonfante Estevam Augusto, Malassa Meike Anne, Gierthmuehlen Petra Christine
Department of Prosthodontics, Medical Faculty and University Hospital Düsseldorf, Heinrich-Heine-University, Düsseldorf, Germany.
Department of Prosthodontics and Periodontology, Bauru School of Dentistry, University of Sao Paulo, Bauru, SP, Brazil.
J Adv Prosthodont. 2021 Oct;13(5):269-280. doi: 10.4047/jap.2021.13.5.269. Epub 2021 Oct 27.
The objective of this study was to evaluate the effect of thickness reduction and fatigue on the failure load of monolithic zirconia crowns.
140 CAD-CAM fabricated crowns (3Y-TZP, inCorisTZI, Dentsply-Sirona) with different ceramic thicknesses (2.0, 1.5, 1.0, 0.8, 0.5 mm, respectively, named G2, G1.5, G1, G0.8, and G0.5) were investigated. Dies of a mandibular first molar were made of composite resin. The zirconia crowns were luted with a resin composite cement (RelyX Unicem 2 Automix, 3M ESPE). Half of the specimens (n = 14 per group) were mouth-motion-fatigued (1.2 million cycles, 1.6 Hz, 200 N/ 5 - 55℃, groups named G2-F, G1.5-F, G1-F, G0.8-F, and G0.5-F). Single-load to failure was performed using a universal testing-machine. Fracture modes were analyzed. Data were statistically analyzed using a Weibull 2-parameter distribution (90% CI) to determine the characteristic strength and Weibull modulus differences among the groups.
Three crowns (21%) of G0.8 and five crowns (36%) of G0.5 showed cracks after fatigue. Characteristic strength was the highest for G2, followed by G1.5. Intermediate values were observed for G1 and G1-F, followed by significantly lower values for G0.8, G0.8-F, and G0.5, and the lowest for G0.5-F. Weibull modulus was the lowest for G0.8, intermediate for G0.8-F and G0.5, and significantly higher for the remaining groups. Fatigue only affected G0.5-F.
Reduced crown thickness lead to reduced characteristic strength, even under failure loads that exceed physiological chewing forces. Fatigue significantly reduced the failure load of 0.5 mm monolithic 3Y-TZP crowns.
本研究的目的是评估厚度减小和疲劳对整体式氧化锆全冠破坏载荷的影响。
研究了140个计算机辅助设计与制造(CAD-CAM)的全冠(3Y-TZP,inCoris TZI,登士柏西诺德公司),其陶瓷厚度不同(分别为2.0、1.5、1.0、0.8、0.5mm,命名为G2、G1.5、G1、G0.8和G0.5)。下颌第一磨牙的代型由复合树脂制成。氧化锆全冠用树脂复合水门汀(RelyX Unicem 2 Automix,3M ESPE)粘结。一半的试件(每组n = 14)进行口腔运动疲劳试验(120万次循环,1.6Hz,200N/5 - 55℃,组名为G2-F、G1.5-F、G1-F、G0.8-F和G0.5-F)。使用万能试验机进行单次加载直至破坏。分析断裂模式。使用双参数威布尔分布(90%置信区间)对数据进行统计学分析,以确定各组之间的特征强度和威布尔模量差异。
G0.8组的3个全冠(21%)和G0.5组的5个全冠(36%)在疲劳后出现裂纹。G2组的特征强度最高,其次是G1.5组。G1组和G1-F组观察到中间值,其次是G0.8组、G0.8-F组和G0.5组的显著较低值,G0.5-F组最低。G0.8组的威布尔模量最低,G0.8-F组和G0.5组为中间值,其余组显著较高。疲劳仅影响G0.5-F组。
即使在超过生理咀嚼力的破坏载荷下,冠厚度减小也会导致特征强度降低。疲劳显著降低了0.5mm整体式3Y-TZP全冠的破坏载荷。
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