树脂复合材料的修复潜力。

The repair potential of resin composite materials.

机构信息

Faculty of Dentistry, Chulalongkorn University, Henri Dunant Rd, Bangkok, Thailand.

出版信息

Dent Mater. 2011 Feb;27(2):e20-7. doi: 10.1016/j.dental.2010.09.006. Epub 2010 Oct 8.

DOI:10.1016/j.dental.2010.09.006

PMID:20934745

Abstract

OBJECTIVES

To measure the 'repair' strength of various combinations of composite using four manufacturers' adhesive systems, to compare the bond strengths with the cohesive strength of the original, unrepaired products and to assess whether the chemical nature of the resin matrix influenced the repair strength.

METHODS

Specimens were prepared of three composite materials Durafill, Heraeus Kulzer; P90 (Silorane) 3M ESPE; Z250 (3M ESPE) and aged in water at 60°C for 1 month. One surface of each specimen was faced with 80-grit silicone carbide paper, one of four adhesives placed (Ecusit, DMG; Clearfil Repair, Kuraray; P90 System Adhesive; Single Bond 2, 3M ESPE) and 'repair' composite added of the same type as above, such that all combinations of original and repair composite and adhesive were used. 'Stick' samples, approximately 6 mm × 0.8 mm × 4 mm were prepared from each repair specimen, a neck created at the junction of original and repair composites and the hour-glass sample tested in tension at 1 mm/min. The microtensile bond strength of the repair was calculated and the mode of failure (adhesive; cohesive in the original composite; cohesive in the repair composite) recorded.

RESULTS

There was no significant difference between the cohesive strengths of Filtek P90 and Filtek Z250 (both ≈106 MPa); both were significantly stronger than Durafill (67.0 MPa). For bonding to Durafill the bond strengths ranged from 17.6 MPa to 50.9 MPa; for bonding to P90, the bond strengths ranged from 5.0 MPa to 54.2 MPa; for bonding to Z250, the bond strengths ranged from 17.2 MPa to 75.4 MPa. Clearfil Repair appeared to provide the most consistently high bond strengths, followed by the P90 System Adhesive, Single Bond 2 and Ecusit. Overall, the majority of failures (74%) was adhesive.

SIGNIFICANCE

It appears that bonding of new dimethacrylate-based composite to old dimethacrylate-based composite can be a viable clinical procedure. However, if the original composite is silorane-based (e.g., P90), then using the silane-based adhesive may be the best repair option, and similarly if it is planned to effect a repair with a silorane-based composite, using a silane-based adhesive may give the best outcome. The null hypotheses are thus rejected.

摘要

目的

使用四种制造商的黏接系统测量各种复合树脂的“修复”强度，比较黏接强度与原始、未修复产品的内聚强度，并评估树脂基质的化学性质是否会影响修复强度。

方法

制备三种复合材料（Durafill，Heraeus Kulzer；P90（硅烷）3M ESPE；Z250（3M ESPE））的试件，并在 60°C 的水中老化 1 个月。每个试件的一个表面用 80 目碳化硅砂纸打磨，然后将四种黏接剂（Ecusit，DMG；Clearfil Repair，Kuraray；P90 系统黏接剂；Single Bond 2，3M ESPE）中的一种放置在一个表面，并用相同类型的“修复”复合材料添加到另一个表面，使得所有原始和修复复合材料与黏接剂的组合都被使用。从每个修复试件中制备大约 6mm×0.8mm×4mm 的“黏合”样本，在原始和修复复合材料的交界处创建一个颈部，并以 1mm/min 的速度进行拉伸测试。计算修复后的微拉伸黏接强度，并记录失效模式（黏接；原始复合材料内聚；修复复合材料内聚）。

结果

Filtek P90 和 Filtek Z250 的内聚强度无显著差异（均约为 106MPa）；两者均明显强于 Durafill（67.0MPa）。用于黏接 Durafill 的黏接强度范围为 17.6MPa 至 50.9MPa；用于黏接 P90 的黏接强度范围为 5.0MPa 至 54.2MPa；用于黏接 Z250 的黏接强度范围为 17.2MPa 至 75.4MPa。Clearfil Repair 似乎提供了最一致的高黏接强度，其次是 P90 系统黏接剂、Single Bond 2 和 Ecusit。总体而言，大多数失效（74%）为黏接失效。