使用308纳米氙氯准分子激光辐射去除有牙结石和无牙结石牙齿上的物质。一项体外研究。

Folwaczny M, Mehl A, Haffner C, Hickel R

Department of Operative Dentistry and Periodontology, Ludwig-Maximilians University, Munich, Germany.

J Clin Periodontol. 1999 May;26(5):306-12. doi: 10.1034/j.1600-051x.1999.260508.x.

It was the aim of this in vitro study to determine the potential effects of 308 nm XeCl excimer laser radiation on root surfaces when used for removing calcified deposits. The source of laser radiation was a XeCl-excimer laser (MAX 10, Fa. Medolas, Germany) emitting ultraviolet radiation at a wavelength of 308 nm with a pulse duration of 60 ns. Subjects of irradiation were 60 extracted teeth which were divided into 2 groups of 30 samples each with (group 1) and without calculus (group 2). Specimens were irradiated with 800 laser pulses at 5 different energy-densities per pulse of 1.0 J/cm2, 2.0 J/cm2, 3.0 J/cm2, 4.0 J/cm2 and 5.0 J/cm2. For each parameter 6 samples (n=6) were exposed to 308 nm excimer-laser radiation. The ablation of hard tissue on the treated root surfaces was measured 3-dimensionally with a laser scanning device (100,000 surface points per sample; accuracy: 5 microm) and evaluated with a special image analyzing software (volume, mean, median, standard deviation). In addition, a scanning electron microscopic (SEM) evaluation of the irradiated root surfaces was performed. Statistical analysis was done using ANOVA with the Scheffé-test. The lowest amount of ablation on teeth without calculus was induced with 14.01 (+/-5.86) microm using laser radiation at an energy density of 2.0 J/cm2. Maximum tissue removal in this sample group was obtained with 56.67 (+/-21.05) microm with laser treatment at an energy density of 5.0 J/cm2. While no ablation of dental cementum was detectable after irradiating root surfaces without calculus at 1.0 J/cm2, a strong removal of calculus with a mean value of 31.91 (+/-4.2) microm was observed under these conditions. The results seem to indicate that a selective removal of subgingival calculus creating a homogenous shape of the root surface with 308 nm excimer laser radiation is possible. Furthermore, no signs of the formation of a smear layer nor the induction of thermal side-effects were observed.

本体外研究的目的是确定308nm XeCl准分子激光辐射用于去除钙化沉积物时对牙根表面的潜在影响。激光辐射源是一台XeCl准分子激光器（MAX 10，德国Medolas公司），其发射波长为308nm的紫外线，脉冲持续时间为60ns。照射对象为60颗拔除的牙齿，分为两组，每组30个样本，一组有牙结石（第1组），另一组无牙结石（第2组）。样本分别以每脉冲1.0J/cm²、2.0J/cm²、3.0J/cm²、4.0J/cm²和5.0J/cm²这5种不同的能量密度接受800个激光脉冲照射。对于每个参数，6个样本（n = 6）接受308nm准分子激光辐射。使用激光扫描设备对处理后的牙根表面硬组织消融进行三维测量（每个样本100,000个表面点；精度：5微米），并使用特殊的图像分析软件进行评估（体积、平均值、中位数、标准差）。此外，对照射后的牙根表面进行扫描电子显微镜（SEM）评估。采用方差分析和Scheffé检验进行统计分析。在能量密度为2.0J/cm²的激光辐射下，无牙结石的牙齿产生的最低消融量为14.01（±5.86）微米。在该样本组中，能量密度为5.0J/cm²的激光治疗使最大组织去除量达到56.67（±21.05）微米。在1.0J/cm²照射无牙结石的牙根表面后，未检测到牙骨质消融，但在这些条件下观察到牙结石有明显去除，平均值为31.91（±4.2）微米。结果似乎表明，用308nm准分子激光辐射选择性去除龈下牙结石并使牙根表面形成均匀形状是可能的。此外，未观察到形成玷污层的迹象，也未观察到热副作用的诱导。