University of Zurich, Zurich, Switzerland.
J Adhes Dent. 2013 Apr;15(2):115-21. doi: 10.3290/j.jad.a28672.
To evaluate the effect of layer thickness of flowable composites on the marginal adaptation of Class II fillings after thermomechanical loading (TML).
Sixty standardized Class II box cavities were prepared under simulation of intrapulpal pressure with gingival margins located 1 mm below the cementoenamel junction (CEJ) in dentin. The samples were evenly distributed into six groups (A to F). After adhesive (XPBond) application, box preparations were filled with a first increment of either a nanohybrid composite (A, D) Ceram.X mono, or with one of two flowable materials SDR (B, E) or x-Flow (C, F). The first increments were 1 (A,B,C) or 4 mm (D,E,F) thick. All cavities were finally filled incrementally with Ceram.X mono. Replicas were prepared before and after TML (1.2 x 106 cycles; 5/50°C; maximum load 49 N). Replicas were evaluated for marginal adaptation (tooth/composite) using scanning electron microscopy (200X). The percentage of continuous margins was compared between and within groups before and after TML using ANOVA and Scheffé's post-hoc tests.
For group F before TML, adaptation of cervical margins located in dentin was compromised compared to the other groups (p < 0.05). After TML, at the same location, group F showed significantly worse adaptation compared with groups A to C and E (p < 0.05), but no difference to group D was found. The marginal integrity of all interfaces before and after TML was significantly worse in group F compared with all other groups (p < 0.05).
Different flow application techniques for Class II cavities have an influence on the marginal adaptation (before/after TML). Applying a 4-mm first increment, both Ceram.X mono and SDR showed no differences vs groups in which the first increment was 1 mm thick.
评估在热机械负载(TML)后,流动复合树脂的层厚对 II 类充填体边缘适应性的影响。
在模拟牙髓内压的情况下,制备 60 个标准化的 II 类盒状窝洞,龈缘位于牙骨质釉牙骨质界(CEJ)下方 1mm。样本被均匀地分为六组(A 至 F)。在应用黏结剂(XPBond)后,用纳米复合树脂(A、D) Ceram.X mono 或两种流动材料 SDR(B、E)或 x-Flow(C、F)中的一种填充第一层,厚度分别为 1mm(A、B、C)或 4mm(D、E、F)。所有窝洞最后均用 Ceram.X mono 分层充填。在 TML 前后(1.2 x 106 次循环;5/50°C;最大载荷 49 N)制备复制件。使用扫描电子显微镜(200X)评估复制件的边缘适应性(牙/复合体)。在 TML 前后,使用方差分析和 Scheffé 事后检验比较组间和组内连续边缘的百分比。
在 TML 前,F 组位于牙本质的颈缘适应性较其他组受损(p < 0.05)。在 TML 后,在相同位置,F 组与 A 至 C 组和 E 组相比,适应性明显较差(p < 0.05),但与 D 组无差异。与其他所有组相比,TML 前后所有界面的边缘完整性在 F 组均明显较差(p < 0.05)。
II 类窝洞不同的流动应用技术对边缘适应性(TML 前后)有影响。使用 4mm 的第一层增量, Ceram.X mono 和 SDR 与第一层厚度为 1mm 的组之间没有差异。
