Ruschel V C, Bona V S, Baratieri L N, Maia H P
Oper Dent. 2018 Jul/Aug;43(4):408-415. doi: 10.2341/17-048-L. Epub 2018 Apr 9.
The objective of this study was to evaluate the effect of surface sealants and polishing delay time on a nanohybrid resin composite roughness and microhardness. Eighty disc specimens were made with a nanohybrid resin (Esthet-X HD, Dentsply). The specimens were divided into two groups (n=40) according to polishing time: immediate, after 10 minutes; delayed, after 48 hours. Each group was subdivided into four groups (n=10), according to the surface treatment: CG, control-rubber points (Jiffy Polishers, Ultradent); PP, rubber points + surface sealant (PermaSeal, Ultradent); PF, rubber points + surface sealant (Fortify, Bisco); PB, rubber points + surface sealant (BisCover, Bisco). Surface roughness (R) and microhardness (50 g/15 seconds) were measured. Surface morphology was analyzed by scanning electron microscopy and atomic force microscopy. The data were analyzed statistically using one-way analysis of variance and the Games-Howell post hoc test (α=0.05). PermaSeal roughness (G2) in the delayed polishing group was significantly higher ( p=0.00) than that of the other groups. No difference was observed among the groups between immediate and delayed polishing ( p=1.00), except for PermaSeal ( p=0.00). Moreover, PermaSeal showed the lowest microhardness values ( p=0.00) for immediate polishing. Microhardness was higher at delayed polishing for all the surface treatments ( p=0.00) except Fortify ( p=0.73). Surface smoothness similar to polishing with rubber points was achieved when surface sealants were used, except for PermaSeal surface sealant, which resulted in a less smooth resin composite surface. However, surface sealant application did not significantly improve composite resin microhardness.
本研究的目的是评估表面封闭剂和抛光延迟时间对纳米混合树脂复合材料粗糙度和显微硬度的影响。用纳米混合树脂(Esthet-X HD,登士柏)制作了80个圆盘标本。根据抛光时间将标本分为两组(n = 40):即时组,10分钟后抛光;延迟组,48小时后抛光。根据表面处理,每组再细分为四组(n = 10):CG,对照组 - 橡胶尖(Jiffy Polishers,Ultradent);PP,橡胶尖 + 表面封闭剂(PermaSeal,Ultradent);PF,橡胶尖 + 表面封闭剂(Fortify,Bisco);PB,橡胶尖 + 表面封闭剂(BisCover,Bisco)。测量表面粗糙度(R)和显微硬度(50 g/15秒)。通过扫描电子显微镜和原子力显微镜分析表面形态。使用单因素方差分析和Games-Howell事后检验(α = 0.05)对数据进行统计学分析。延迟抛光组中PermaSeal的粗糙度(G2)显著高于其他组(p = 0.00)。除PermaSeal(p = 0.00)外,即时抛光和延迟抛光组之间未观察到差异(p = 1.00)。此外,PermaSeal在即时抛光时显示出最低的显微硬度值(p = 0.00)。除Fortify(p = 0.73)外,所有表面处理在延迟抛光时显微硬度均较高(p = 0.00)。使用表面封闭剂时,除PermaSeal表面封闭剂外,均可获得与使用橡胶尖抛光相似的表面光滑度,PermaSeal表面封闭剂会使树脂复合材料表面不太光滑。然而,应用表面封闭剂并未显著提高复合树脂的显微硬度。
