Department of Restorative Dentistry, State University of Ponta Grossa, Ponta Grossa, Parana, Brazil.
Department of Dental Clinical Sciences, Faculty of Dentistry, Dalhousie University, Halifax, Nova Scotia, Canada.
J Esthet Restor Dent. 2023 Jun;35(4):705-716. doi: 10.1111/jerd.13022. Epub 2023 Feb 4.
To evaluate the in vitro pulpal temperature rise (ΔT) within the pulp chamber when low- and high-viscosity bulk-fill resin composites are photo-cured using laser or contemporary light curing units (LCUs).
The light output from five LCUs was measured. Non-retentive Class I and V cavities were prepared in one upper molar. Two T-type thermocouples were inserted into the pulp chamber. After the PT values reached 32°C under simulated pulp flow (0.026 mL/min), both cavities were restored with: Filtek One Bulk Fill (3 M), Filtek Bulk Fill Flow (3 M), Tetric PowerFill (Ivoclar Vivadent), or Tetric PowerFlow (Ivoclar Vivadent). The tooth was exposed as follows: Monet Laser (1 and 3 s), PowerCure (3 and 20 s), PinkWave (3 and 20 s), Valo X (5 and 20 s) and SmartLite Pro (20 s). The ΔT data were subjected to one-way ANOVA followed by Scheffe's post hoc test.
Monet 1 s (1.9 J) and PinkWave 20 s (30.1 J) delivered the least and the highest amount of energy, respectively. Valo X and PinkWave used for 20 s produced the highest ΔT values (3.4-4.1°C). Monet 1 s, PinkWave 3 s, PowerCure 3 s (except FB-Flow) and Monet 3 s for FB-One and TP-Fill produced the lowest ΔT values (0.9-1.7°C). No significant differences were found among composites.
Short 1- to 3-s exposures produced acceptable temperature rises, regardless of the composite.
The energy delivered to the tooth by the LCUs affects the temperature rise inside the pulp. The short 1-3 s exposure times used in this study delivered the least amount of energy and produced a lower temperature rise. However, the RBC may not have received sufficient energy to be adequately photo-cured.
评估使用激光或现代光固化器(LCU)对低粘度和高粘度块状填充树脂复合材料进行光固化时牙髓腔内的体外牙髓温度升高(ΔT)。
测量了五个 LCU 的光输出量。在上颌磨牙中制备非保留 I 类和 V 类窝洞。将两个 T 型热电偶插入牙髓腔。在模拟牙髓流动(0.026 mL/min)下 PT 值达到 32°C 后,用以下材料填充两个窝洞:Filtek One Bulk Fill(3M)、Filtek Bulk Fill Flow(3M)、Tetric PowerFill(义获嘉维他)或 Tetric PowerFlow(义获嘉维他)。牙齿的暴露方式如下:Monet 激光(1 秒和 3 秒)、PowerCure(3 秒和 20 秒)、PinkWave(3 秒和 20 秒)、Valo X(5 秒和 20 秒)和 SmartLite Pro(20 秒)。对 ΔT 数据进行单因素方差分析,然后进行 Scheffe 事后检验。
Monet 1 秒(1.9 J)和 PinkWave 20 秒(30.1 J)分别提供了最少和最多的能量。使用 20 秒的 Valo X 和 PinkWave 产生了最高的 ΔT 值(3.4-4.1°C)。Monet 1 秒、PinkWave 3 秒、PowerCure 3 秒(除 FB-Flow 外)和 Monet 3 秒用于 FB-One 和 TP-Fill 产生了最低的 ΔT 值(0.9-1.7°C)。复合材料之间没有发现显著差异。
无论复合材料如何,1-3 秒的短曝光时间都能产生可接受的温升。
LCU 输送到牙齿的能量会影响牙髓腔内的温度升高。本研究中使用的 1-3 秒短曝光时间输送的能量最少,产生的温升最低。然而,RBC 可能没有接收到足够的能量进行充分的光固化。
