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9.6微米二氧化碳激光照射与高速钻孔后牙釉质和牙本质的化学分析及表面形态

Chemical analysis and surface morphology of enamel and dentin following 9.6mu CO2 laser irradiation versus high speed drilling.

作者信息

Moshonov Joshua, Stabholz Adam, Bar-Hilel Rita, Peretz Benjamin

机构信息

Department of Endodontics, Hebrew University-Hadassah School of Dental Medicine, Israel.

出版信息

J Dent. 2005 May;33(5):427-32. doi: 10.1016/j.jdent.2004.11.005. Epub 2004 Dec 19.

DOI:10.1016/j.jdent.2004.11.005
PMID:15833399
Abstract

OBJECTIVES

The purpose of the present in vitro study was to determine whether there is a change in the chemical composition and surface morphology of enamel and dentin following 9.6mu CO2 laser irradiation and high-speed drilling.

MATERIALS AND METHODS

Ten permanent, non-carious, young premolars, extracted for orthodontic reasons, were selected. The crowns were separated longitudinally into two equal parts at their mesiodistal axis. Two areas on the inner enamel surface of each specimen and two on the dentinal surface were selected. A high-speed drill and 9.6mu CO2 laser irradiation were applied to the selected enamel and dentinal areas. A random area on the unlased enamel and on the unlased dentin of each specimen served as controls. The morphology of the specimens was evaluated using scanning electron microscopy. Calcium, phosphorus and oxygen levels were measured using an energy dispersive spectrometer.

RESULTS

Mineral analysis revealed no significant difference in the mineral content of the enamel and dentin after laser irradiation or high speed drilling versus the control. Use of the high-speed drill on enamel and dentin resulted in very clear cavity margins, with characteristic grooves, whereas laser irradiation of enamel and dentin did not produce clear margins and the floor of the cavity displayed an irregular surface.

CONCLUSIONS

The 9.6mu CO2 laser appears to be a promising tool in the clinical setting. However, further investigation is indicated to ensure maximum effectiveness.

摘要

目的

本体外研究的目的是确定9.6微米二氧化碳激光照射和高速钻孔后釉质和牙本质的化学成分及表面形态是否发生变化。

材料与方法

选取因正畸原因拔除的10颗恒牙、非龋坏年轻前磨牙。将牙冠沿近远中轴纵向分为两个相等部分。在每个标本的内釉质表面选取两个区域,在牙本质表面选取两个区域。对选定的釉质和牙本质区域进行高速钻孔和9.6微米二氧化碳激光照射。每个标本未照射的釉质和未照射的牙本质上的随机区域作为对照。使用扫描电子显微镜评估标本的形态。使用能量色散光谱仪测量钙、磷和氧的含量。

结果

矿物分析显示,激光照射或高速钻孔后釉质和牙本质的矿物含量与对照相比无显著差异。在釉质和牙本质上使用高速钻孔会产生非常清晰的洞缘,并带有特征性凹槽,而对釉质和牙本质进行激光照射不会产生清晰的边缘,洞底表面不规则。

结论

9.6微米二氧化碳激光在临床环境中似乎是一种有前景的工具。然而,需要进一步研究以确保其最大有效性。

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