Department of Pediatric Clinic, Preventive and Social Dentistry, School of Dentistry of Ribeirão Preto, University of São Paulo, Ribeirão Preto, SP, Brazil.
Lasers Med Sci. 2012 Jan;27(1):1-5. doi: 10.1007/s10103-010-0823-8. Epub 2010 Aug 25.
This study aimed to assess in vitro thermal alterations taking place during the Er:YAG laser cavity preparation of primary tooth enamel at different energies and pulse repetition rates. Forty healthy human primary molars were bisected in a mesio-distal direction, thus providing 80 fragments. Two small orifices were made on the dentin surface to which type K thermocouples were attached. The fragments were individually fixed with wax in a cylindrical Plexiglass® abutment and randomly assigned to eight groups, according to the laser parameters (n = 10): G1 - 250 mJ/ 3 Hz, G2 - 250 mJ/ 4 Hz, G3 - 250 mJ/ 6 Hz, G4 - 250 mJ/10 Hz, G5 - 250 mJ/ 15 Hz, G6 - 300 mJ/ 3 Hz, G7 - 300 mJ/ 4 Hz and G8 - 300 mJ/ 6 Hz. An area of 4 mm(2) was delimited. Cavities were done (2 mm long × 2 mm wide × 1 mm thick) using non-contact (12 mm) and focused mode. Temperature values were registered from the start of laser irradiation until the end of cavity preparation. Data were analyzed by one-way ANOVA and Tukey test (p ≤ 0.05). Groups G1, G2, G6, and G7 were statistically similar and furnished the lowest mean values of temperature rise. The set 250 mJ/10 and 15 Hz yielded the highest temperature values. The sets 250 and 300 mJ and 6 Hz provided temperatures with mean values below the acceptable critical value, suggesting that these parameters ablate the primary tooth enamel. Moreover, the temperature elevation was directly related to the increase in the employed pulse repetition rates. In addition, there was no direct correlation between temperature rise and energy density. Therefore, it is important to use a lower pulse frequency, such as 300 mJ and 6 Hz, during cavity preparation in pediatric patients.
本研究旨在评估 Er:YAG 激光在不同能量和脉冲重复率下对乳牙釉质进行腔预备时发生的体外热改变。40 颗健康的人乳磨牙沿近远中方向被对半切开,从而提供 80 个碎片。在牙本质表面制作两个小孔,将 K 型热电偶附着在上面。将碎片单独用蜡固定在圆柱形 Plexiglass® 嵌体中,并根据激光参数(n = 10)随机分配到八个组:G1 - 250 mJ/3 Hz,G2 - 250 mJ/4 Hz,G3 - 250 mJ/6 Hz,G4 - 250 mJ/10 Hz,G5 - 250 mJ/15 Hz,G6 - 300 mJ/3 Hz,G7 - 300 mJ/4 Hz 和 G8 - 300 mJ/6 Hz。划定了 4mm² 的区域。使用非接触(12mm)和聚焦模式进行腔制备(2mm 长×2mm 宽×1mm 厚)。从激光照射开始到腔制备结束记录温度值。数据采用单向方差分析和 Tukey 检验(p≤0.05)进行分析。G1、G2、G6 和 G7 组在统计学上相似,提供的温升平均值最低。250mJ/10 和 15Hz 组产生的温度最高。250mJ 和 300mJ 以及 6Hz 组的设定值提供的温度平均值低于可接受的临界值,表明这些参数可消融乳牙釉质。此外,温度升高与所使用的脉冲重复率的增加直接相关。此外,温度升高与能量密度之间没有直接关系。因此,在儿科患者进行腔制备时,使用较低的脉冲频率(如 300mJ 和 6Hz)非常重要。
