Department of Orthodontics, Greifswald University Medicine, Greifswald, Germany.
German National Center for Plasma Medicine (NZPM), Berlin, Germany.
J Orofac Orthop. 2024 Sep;85(5):350-358. doi: 10.1007/s00056-023-00451-9. Epub 2023 Mar 1.
Cold atmospheric plasma can functionalize enamel without damaging the substrate morphology. It therefore has the potential to be a gentle alternative to conventional acid etching. To realize the full potential of cold atmospheric plasma in orthodontic bonding, the input parameters and protocols that are most beneficial to surface modification must first be identified. We aimed to clarify how the admixture of oxygen to cold atmospheric plasma and the rewetting of the enamel affect the conditioning properties for orthodontic bonding.
First, we illustrated the morphological effects of different plasma compositions on the enamel surface by means of scanning electron microscopy. Then, we measured the shear bond strength resulting from different conditioning techniques on bovine enamel specimens: conventional acid etching; no conditioning; pure argon plasma; argon plasma plus 0.5% oxygen admixture; argon plasma plus 0.5% oxygen and rewetting after plasma application. Brackets were bonded using light cured adhesive; all specimens were subjected to thermocycling. The shear bond strength of each specimen was measured in a universal testing machine and compared using Welch one-way analysis of variance (ANOVA) and Games-Howell post hoc test.
Specimens conditioned with argon plasma plus 0.5% oxygen and rewetting showed a significantly higher shear bond strength than specimens conditioned with conventional acid etching. Conditioning with pure argon plasma and argon plasma plus 0.5% oxygen without rewetting yielded significantly lower shear bond strength.
Admixing 0.5% oxygen and rewetting the enamel after plasma application are crucial steps that could help make cold atmospheric plasma a gentle conditioning technique in orthodontic bonding.
低温常压等离子体可以对牙釉质进行功能化处理,而不会破坏基底层的形态。因此,它有可能成为传统酸蚀的温和替代方法。为了充分发挥低温常压等离子体在正畸粘接中的潜力,首先必须确定对表面改性最有利的输入参数和方案。我们旨在阐明低温常压等离子体中氧气的混入和牙釉质的再润湿如何影响正畸粘接的预处理性能。
首先,我们通过扫描电子显微镜说明了不同等离子体成分对牙釉质表面的形态影响。然后,我们测量了不同预处理技术对牛牙釉质标本产生的剪切结合强度:传统酸蚀;无预处理;纯氩等离子体;氩等离子体加 0.5%氧气混合物;氩等离子体加 0.5%氧气并在等离子体应用后再润湿。使用光固化胶粘剂粘结托槽;所有标本均进行热循环。在万能试验机上测量每个标本的剪切结合强度,并使用 Welch 单向方差分析(ANOVA)和 Games-Howell 事后检验进行比较。
用氩等离子体加 0.5%氧气和再润湿处理的标本的剪切结合强度明显高于用传统酸蚀处理的标本。用纯氩等离子体和氩等离子体加 0.5%氧气预处理而不润湿的标本的剪切结合强度明显较低。
在等离子体应用后混入 0.5%氧气并润湿牙釉质是关键步骤,这可能有助于使低温常压等离子体成为正畸粘接中的温和预处理技术。
