Influence of cement type, excess removal, and polishing on the cement joint.

IF 1.3 4区医学 Q3 DENTISTRY, ORAL SURGERY & MEDICINE

Quintessence international Pub Date : 2024-02-28 DOI:10.3290/j.qi.b4780239

Georg Beierlein, Laura Haas, Sebastian Hahnel, Michael Schmidt, Martin Rosentritt

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引用次数: 0

Abstract

Objectives: To compare marginal gap width and depth with different cementation systems, excess removal, and after polishing.

Method and materials: In total, 80 composite crowns were milled, divided into ten groups, and cemented on identical artificial teeth. Eight crowns per group were fixed with (i) zinc phosphate cement (ZnOPh), (ii) glass-ionomer cement (GIC), (iii) resin-reinforced glass-ionomer cement (GIC mod), (iv) dual-curing adhesive composite (Comp dual), or (v) dual-curing self-adhesive composite (Comp SE dual). Excess removal was performed with a scaler after brief light-cure (tack-cure), final light-cure, during rubber or gel phase or by wiping with foam pellet. Curing was completed in chemical, dark cure, or light-curing modus. The specimens were polished and stored in water (37°C). The margins were digitized using a 3D laser-scanning microscope (VK-X100 series, Keyence). The width and the depth of the marginal gap were measured at 10 points between the crown margin and the preparation margin.

Results: The width after excess removal varied between 65.1 ± 15.7 µm (Comp dual, wipe, with polishing) and 208.6 ± 266.7 µm (Comp SE dual, dark cure, without polishing). The depth varied between 29.8 ± 22.2 µm (Comp dual, wipe, with polishing) and 89.5 ± 45.2 µm (Comp SE dual, dark cure, without polishing). The impact on gap width and depth was detected for fixation material, excess removal, and polishing.

Conclusion: The gap depth and width depend on the luting material and the mode of access removal. Polishing can improve the gap quality, especially for GIC and resin-based systems.

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水泥类型、过量清除和抛光对水泥接缝的影响。

目的比较不同粘接系统、去除多余部分和抛光后的边缘间隙宽度和深度：磨制 80 个复合牙冠，分成 10 组，粘结在相同的人工牙齿上。每组 8 个牙冠分别用 i) 磷酸锌水泥（ZnOPh）、ii) 玻璃离聚物水泥（GIC）、ii) 树脂增强玻璃离聚物水泥（GIC mod）、iv) 双固化粘接复合材料（Comp dual）或 v) 双固化自粘接复合材料（Comp SE dual）固定。在短暂光固化（粘性固化）、最终光固化、橡胶或凝胶阶段或使用泡沫颗粒擦拭后，使用去垢剂清除多余部分。固化以化学固化、暗固化或光固化方式完成。试样经抛光后保存在水中（37°C）。使用三维激光扫描显微镜（VK-X100 系列，Keyence，日本）对边缘进行数字化处理。在牙冠边缘和预备边缘之间的 10 个点测量边缘间隙的宽度和深度：去除多余部分后的宽度介于 65.1 ± 15.7 µm（双层化合物，擦拭，抛光）和 208.6 ± 266.7 µm（SE 双层化合物，深色固化，不抛光）之间。深度在 29.8 ± 22.2 微米（双组分，擦拭，抛光）和 89.5 ± 45.2 微米（SE 双组分，暗固化，不抛光）之间变化。固定材料、多余部分的去除和抛光对间隙宽度和深度有影响：结论：间隙的深度和宽度取决于衬垫材料和去除通道的方式。抛光可以改善间隙的质量，尤其是对于 GIC 和树脂基系统。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Quintessence international 医学-牙科与口腔外科

CiteScore

3.30

自引率

5.30%

发文量

审稿时长

1 months

期刊介绍： QI has a new contemporary design but continues its time-honored tradition of serving the needs of the general practitioner with clinically relevant articles that are scientifically based. Dr Eli Eliav and his editorial board are dedicated to practitioners worldwide through the presentation of high-level research, useful clinical procedures, and educational short case reports and clinical notes. Rigorous but timely manuscript review is the first order of business in their quest to publish a high-quality selection of articles in the multiple specialties and disciplines that encompass dentistry.