使用Clinpro Prophy和Air-Flow进行空气抛光后固定正畸矫治器表面变化的体外研究

In-vitro study of surface changes in fixed orthodontic appliances following air polishing with Clinpro Prophy and Air-Flow.

作者信息

Wilmes Benedict, Vali Shervin, Drescher Dieter

机构信息

Department of Orthodontics, Heinrich Heine University, Düsseldorf, Germany.

出版信息

J Orofac Orthop. 2009 Sep;70(5):371-84. doi: 10.1007/s00056-009-9907-0. Epub 2009 Dec 9.

DOI:10.1007/s00056-009-9907-0

PMID:19997996

Abstract

OBJECTIVE

Air-polishing devices (APDs) are used to clean and polish tooth surfaces. The objective of this study was to examine the effects of exposing orthodontic wires and brackets to different types of powder when using an APD.

MATERIAL AND METHODS

Three different wire materials (steel, TMA, Ni-Ti) were polished using an APD (Air-Flow((R)) S1), Clinpro Prophy and Air-Flow((R)). The exposure times were set at 5 and 10 seconds, the application distance at 2 and 4 mm. The wires were then measured for friction. The unpolished sections of the wires were used for control purposes. In a qualitative analysis, the brackets (steel, ceramic and plastic) were exposed for 5 s, 10 s, 30 s und 60 s from a distance of 2 mm using Clinpro Prophy and Air-Flow((R)). The polishing effects were then observed using a scanning electron microscope.

RESULTS

The unpolished TMA wire exhibited greater friction (1.22 N) than the Ni-Ti (0.82 N) and the steel wire (0.97 N). Polishing resulted in a 2.5% increase in friction on average (p = 0.004). There was no evidence of a change in the ceramic bracket surfaces. When the Air-Flow((R)) device was used on steel brackets for longer exposure times, the result was a slight roughening of the surface. The plastic brackets exhibited changes that became more obvious after use of the Air-Flow((R)) device.

CONCLUSIONS

The surface changes in archwires and brackets caused by air-polishing devices when applying the Clinpro Prophy and Air-Flow((R)) powders can be considered as marginal overall. When the adjacent periodontium is intact, both powders are equally suitable, although the Air-Flow((R)) powder is somewhat more effective due to its greater abrasiveness. When using plastic brackets, Clinpro Prophy proved to be the powder of choice, thanks to its low abrasiveness.

摘要

目的

空气抛光设备（APD）用于清洁和抛光牙齿表面。本研究的目的是检验使用APD时，正畸钢丝和托槽暴露于不同类型粉末的影响。

材料与方法

使用APD（Air-Flow((R)) S1）、Clinpro Prophy和Air-Flow((R))对三种不同的钢丝材料（不锈钢丝、TMA丝、镍钛丝）进行抛光。暴露时间设定为5秒和10秒，作用距离设定为2毫米和4毫米。然后测量钢丝的摩擦力。未抛光的钢丝段用作对照。在定性分析中，使用Clinpro Prophy和Air-Flow((R))从2毫米的距离对托槽（不锈钢、陶瓷和塑料）分别暴露5秒、10秒、30秒和60秒。然后使用扫描电子显微镜观察抛光效果。

结果

未抛光的TMA丝比镍钛丝（0.82牛）和不锈钢丝（0.97牛）表现出更大的摩擦力（1.22牛）。抛光平均导致摩擦力增加2.5%（p = 0.004）。没有证据表明陶瓷托槽表面有变化。当Air-Flow((R))设备在不锈钢托槽上使用较长暴露时间时，结果是表面略有粗糙。塑料托槽在使用Air-Flow((R))设备后表现出更明显的变化。

结论

在使用Clinpro Prophy和Air-Flow((R))粉末时，空气抛光设备对弓丝和托槽表面造成的变化总体上可视为微不足道。当相邻牙周组织完好时，两种粉末同样适用，尽管Air-Flow((R))粉末由于其更大的磨蚀性而更有效。在使用塑料托槽时，Clinpro Prophy因其低磨蚀性被证明是首选粉末。

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使用Clinpro Prophy和Air-Flow进行空气抛光后固定正畸矫治器表面变化的体外研究

In-vitro study of surface changes in fixed orthodontic appliances following air polishing with Clinpro Prophy and Air-Flow.

作者信息

机构信息

出版信息

OBJECTIVE

MATERIAL AND METHODS

RESULTS

CONCLUSIONS

目的

材料与方法

结果

结论

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