轴向力和侧向力下二硅酸锂和多相树脂复合材料嵌体的断裂强度、失效类型和威布尔特征。
Fracture strength, failure type and Weibull characteristics of lithium disilicate and multiphase resin composite endocrowns under axial and lateral forces.
机构信息
The University of Groningen, Groningen, University Medical Center Groningen, Center for Dentistry and Oral Hygiene, Department of Fixed and Removable Prosthodontics, Groningen, The Netherlands.
University of Zurich, Dental Materials Unit, Center for Dental and Oral Medicine, Clinic for Fixed and Removable Prosthodontics and Dental Materials Science, Zurich, Switzerland.
出版信息
Dent Mater. 2016 May;32(5):607-14. doi: 10.1016/j.dental.2016.01.004. Epub 2016 Feb 28.
OBJECTIVE
Multiphase resin composite materials have been advocated as an alternative to reinforced ceramics but limited information is available to date on their stability. This in vitro study evaluated the effect of axial and lateral forces on the strength of endocrowns made of Li2Si2O5 and multiphase resin composite.
METHODS
Sound human molars (N=60, n=10 per group) were randomly divided into 6 groups: Group C: Control, no preparation or restoration; Group LI: Endocrown made of Li2Si2O5 (IPS e.max CAD) and Group LA: Endocrown made of multiphase resin composite material (Lava Ultimate). After decapitation and endodontic preparation, immediate dentin sealing was performed. Following CAD/CAM fabrication, their cementation surfaces were silica coated (CoJet System) and silanized (ESPE-Sil). Endocrowns were then adhesively cemented (Variolink II). All specimens were thermocycled (×10,000 cycles). While half of the specimens in each group were subjected to axial (C(A), LI(A), LA(A)), the other half was subjected to lateral static (C(L), LI(L), LA(L)) loading (1mm/min). Failure type and location after debonding/fracture were classified. Data were analyzed using ANOVA and Tukey's post hoc test (α=0.05). Two-parameter Weibull distribution values including the Weibull modulus, scale (m) and shape (0), values were calculated.
RESULTS
Under axial loading, mean fracture strength (N) did not show significant difference between groups: LAA (2675±588)(a), LIA (2428±566)(a), CA (2151±672)(a) (p>0.05) and under lateral loading, LAL (838±169)(A) presented significantly lower mean values than those of other groups: CL (1499±418)(B), LIL (1118±173)(B) (p<0.05). Both endocrown materials and the control group were more vulnerable to lateral loading than axial loading. Under axial loading, Weibull distribution presented higher shape (0) for Groups LIA (5.35) and LAA (5.08) than that of the control (3.97) and under lateral loading LIL (7.5) showed higher shape (0) than those of other groups (4.69-6.46). After axial loading, failure types were mainly cohesive in the material and after lateral loading primarily adhesive between the material and dentin for both LI and LA, most of which were repairable.
SIGNIFICANCE
Under axial loading, molars restored with endocrowns performed similar with both Li2Si2O5 and multiphase resin composite but the latter was less durable under lateral loading.
目的
多相树脂复合材料作为增强陶瓷的替代品已得到提倡,但目前关于其稳定性的信息有限。本体外研究评估了轴向和侧向力对 Li2Si2O5 和多相树脂复合材料制成的牙内冠强度的影响。
方法
随机将 60 颗健康的人磨牙(N=60,每组 10 颗)分为 6 组:C 组:无预备或修复;LI 组:Li2Si2O5(IPS e.max CAD)制成的牙内冠和 LA 组:多相树脂复合材料制成的牙内冠。在牙冠截断和根管预备后,立即进行牙本质密封。CAD/CAM 制作后,对其粘结面进行硅涂层(CoJet 系统)和硅烷化(ESPE-Sil)处理。然后将牙内冠用粘结剂(Variolink II)粘结。所有标本均进行热循环(×10,000 次)。每组一半的标本接受轴向(C(A)、LI(A)、LA(A)),另一半接受侧向静态(C(L)、LI(L)、LA(L))加载(1mm/min)。在分离/断裂后,对失效类型和位置进行分类。使用方差分析和 Tukey 事后检验(α=0.05)对数据进行分析。计算双参数 Weibull 分布值,包括 Weibull 模数、尺度(m)和形状(0)值。
结果
在轴向载荷下,各组之间的平均断裂强度(N)没有显著差异:LAA(2675±588)(a)、LIA(2428±566)(a)、CA(2151±672)(a)(p>0.05),在侧向载荷下,LAL(838±169)(A)的平均数值明显低于其他组:CL(1499±418)(B)、LIL(1118±173)(B)(p<0.05)。牙内冠材料和对照组在侧向加载下均比轴向加载更脆弱。在轴向加载下,LI 和 LA 的 LIA(5.35)和 LAA(5.08)的 Weibull 分布形状(0)高于对照组(3.97),而在侧向加载下,LIL(7.5)的形状(0)高于其他组(4.69-6.46)。在轴向加载后,LI 和 LA 的失效类型主要是材料内的内聚性,而在侧向加载后主要是材料和牙本质之间的粘结性,大多数都是可修复的。
意义
在轴向载荷下,用牙内冠修复的磨牙与 Li2Si2O5 和多相树脂复合材料表现相似,但后者在侧向载荷下耐久性较差。
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