ABSTRACT The aim of this study was to evaluate the use of ozone as cavity disinfectant on the bonding strength to dentin of different antibacterial bonding agents. The study was conducted on 60 cavity-free 3rd molar teeth. The prepared samples were separated into 3 groups. These groups were each sub-divided into 2 groups of 10 as a group with ozone applied and a control group. In Group 1a, ozone was applied as cavity disinfectant for 6 secs to all the exposed dentin surfaces then restoration was applied. In Group 1b as the control group, the restoration stages were applied without any cavity disinfection. Gluma 2 Bond, our first antibacterial adhesive material, was applied to all dentin surfaces and polymerized. The second and third groups were divided into two groups. Clearfil SE Protect Primer and Clearfil SE Protect Bond were applied in the group 2. Peak Universal was used in Group 3. After the application of the adhesive materials and then Estelite posterior quick composite was applied and polymerized. The bonding strengths of all the samples were measured in an Instron test device. The data were statistically analyzed using the Mann Whitney U-test and the Kruskal Wallis test. The highest bonding strength was determined in Gluma 2 Bond (7,79), and the lowest bonding strength was in Peek Universal (3,43). It was concluded that ozone adhesive systems can be safely currently used as they have been shown to increase bonding strength and can eliminate bacteria.

中文翻译：

---

使用臭氧作为腔消毒剂会影响抗菌粘合剂的粘合强度吗？

摘要 本研究的目的是评估使用臭氧作为腔消毒剂对不同抗菌粘合剂与牙本质的粘合强度的影响。该研究是在 60 颗无蛀牙的第三磨牙上进行的。将制备的样品分成 3 组。这些组各自被细分为两组，每组 10 人，作为施加臭氧的组和对照组。在第 1a 组中，将臭氧作为腔消毒剂应用于所有暴露的牙本质表面 6 秒，然后进行修复。1b组为对照组，修复阶段未进行任何腔体消毒。Gluma 2 Bond 是我们的第一种抗菌粘合剂材料，应用于所有牙本质表面并进行聚合。第二组和第三组被分成两组。Clearfil SE Protect Primer 和 Clearfil SE Protect Bond 用于第 2 组。Peak Universal 用于第 3 组。在应用粘合剂材料后，然后应用 Estelite 后部快速复合材料并聚合。在 Instron 测试装置中测量所有样品的结合强度。使用 Mann Whitney U 检验和 Kruskal Wallis 检验对数据进行统计分析。Gluma 2 Bond (7,79) 的粘合强度最高，Peek Universal (3,43) 的粘合强度最低。结论是臭氧粘合剂系统目前可以安全使用，因为它们已被证明可以增加粘合强度并可以消除细菌。在应用粘合剂材料之后，然后应用和聚合Estelite后部快速复合材料。在 Instron 测试装置中测量所有样品的结合强度。使用 Mann Whitney U 检验和 Kruskal Wallis 检验对数据进行统计分析。Gluma 2 Bond (7,79) 的粘合强度最高，Peek Universal (3,43) 的粘合强度最低。结论是臭氧粘合剂系统目前可以安全使用，因为它们已被证明可以增加粘合强度并可以消除细菌。在应用粘合剂材料之后，然后应用和聚合Estelite后部快速复合材料。在 Instron 测试装置中测量所有样品的结合强度。使用 Mann Whitney U 检验和 Kruskal Wallis 检验对数据进行统计分析。Gluma 2 Bond (7,79) 的粘合强度最高，Peek Universal (3,43) 的粘合强度最低。结论是臭氧粘合剂系统目前可以安全使用，因为它们已被证明可以增加粘合强度并可以消除细菌。Peek Universal (3,43) 的粘合强度最低。结论是臭氧粘合剂系统目前可以安全使用，因为它们已被证明可以增加粘合强度并可以消除细菌。Peek Universal (3,43) 的粘合强度最低。结论是臭氧粘合剂系统目前可以安全使用，因为它们已被证明可以增加粘合强度并可以消除细菌。