Department of Operative Dentistry and Periodontology, University School of Dental Medicine, Charité-Universitätsmedizin Berlin, Berlin, Germany.
Odontology. 2012 Jul;100(2):172-80. doi: 10.1007/s10266-011-0031-4. Epub 2011 Jun 16.
Surface substance loss of subsurface enamel lesions before (baseline/demineralization) and after each step of the infiltration technique was evaluated by means of a three-dimensional focus variation. Eighty enamel specimens were prepared and partially varnished (control). Non-varnished areas were demineralized (pH 4.95; 28 days), and etched with phosphoric acid gel (20%; 5 s). Specimens were randomly assigned to eight groups (n = 10), and were infiltrated using four resinous materials. In subgroups 1, polymerization and finishing with abrasive polishing strips followed. In subgroups 2, excess material was removed before polymerization (E1/E2-Excite, Vivadent; F1/F2-Fortify, Bisco; G1/G2-Glaze & Bond, DMG; I1/I2-Icon, DMG). Topometrical evaluation revealed a negligible substance loss of demineralized enamel. After etching, mean (±SD) differences of height decreased uniformly (-6.6 ± 2.0 μm; p = 0.089; ANOVA). For infiltrated lesions, DH of subgroups 1 was comparable to the etched lesions, with a significant increase (compared to etched lesions) in subgroups 2 (1.1 ± 0.1 μm; p < 0.001; t test). Within the limitations of this study, it is concluded that etching of initial subsurface lesions will result in significant surface substance loss; removal of excess material before light-curing should simplify the infiltration procedure, and this will avoid any abrasion resulting from polishing procedures.
使用三维聚焦变化评估了渗透技术各个步骤前后亚表面釉质病损的表面物质损失。制备了 80 个釉质样本并部分上漆(对照组)。未上漆区域被脱矿(pH 值 4.95;28 天),并用磷酸凝胶蚀刻(20%;5 秒)。将样本随机分配到八个组(n = 10),并用四种树脂材料进行渗透。在亚组 1 中,随后进行聚合和研磨抛光条的抛光。在亚组 2 中,在聚合前去除多余材料(E1/E2-Excite,Vivadent;F1/F2-Fortify,Bisco;G1/G2-Glaze & Bond,DMG;I1/I2-Icon,DMG)。形貌评估显示脱矿釉质的表面物质损失可忽略不计。蚀刻后,高度的平均(±SD)差异均匀降低(-6.6 ± 2.0 μm;p = 0.089;ANOVA)。对于渗透病损,亚组 1 的 DH 与蚀刻病损相当,亚组 2 的 DH 显著增加(与蚀刻病损相比)(1.1 ± 0.1 μm;p < 0.001;t 检验)。在本研究的限制内,可以得出结论,初始亚表面病损的蚀刻会导致显著的表面物质损失;在光固化前去除多余材料应简化渗透程序,并避免抛光程序产生的任何磨损。
