Yap A U J, Soh M S, Siow K S
Department of Restorative Dentistry, Faculty of Dentistry, National University of Singapore, Republic of Singapore.
Oper Dent. 2002 Jan-Feb;27(1):81-7.
This study investigated the influence of pulse activation and soft-start polymerization regimens on the post-gel shrinkage of a visible light-activated composite resin (Z100). A light-cure unit (BISCO VIP) that allowed for independent command over time and intensity was used. The six light-curing modes that were examined include: Control (C)-400 mW/cm2 [40 seconds]; Pulse Delay I (PDI)-100 mW/cm2 [3 seconds], delay [3 minutes], 500 mW/cm2 [30 seconds]; Pulse Delay II (PDII)-200 mW/cm2 [20 seconds], delay [3 minutes], 500 mW/cm2 [30 seconds]; Soft-start (SS)-200 mW/cm2 [10 seconds], 600 mW/cm2 [30 seconds]; Pulse Cure I (PCI)--two 400 mW/cm2 [10 seconds] and one 400 mW/cm2 [20 seconds] pulses with 10 seconds interval between; and Pulse Cure II (PCII)-two 400 mW/cm2 [20 seconds] pulses with 20 seconds interval between. A strain-monitoring device measured the linear polymerization shrinkage associated with the various cure modes during and post light polymerization up to 60 minutes. Five specimens were made for each cure mode. Data was analyzed using one-way ANOVA and Scheffe's post-hoc test at significance level 0.05. Post-gel shrinkage associated with PDI was significantly lower than with PDII, SS and PCI immediately post light-polymerization. At one-minute post light polymerization, PDI had significantly lower shrinkage compared to PDII and SS. Significant differences in shrinkage were observed between PDI and SS only at 10, 30 and 60 minutes. At all time intervals, no significance in post-gel shrinkage was observed between the control and all-pulse activation/soft-start polymerization regimens.
本研究调查了脉冲激活和软启动聚合方案对可见光激活复合树脂(Z100)凝胶后收缩的影响。使用了一个可独立控制时间和强度的光固化单元(BISCO VIP)。所研究的六种光固化模式包括:对照(C)-400 mW/cm²[40秒];脉冲延迟I(PDI)-100 mW/cm²[3秒],延迟[3分钟],500 mW/cm²[30秒];脉冲延迟II(PDII)-200 mW/cm²[20秒],延迟[3分钟],500 mW/cm²[30秒];软启动(SS)-200 mW/cm²[10秒],600 mW/cm²[30秒];脉冲固化I(PCI)-两个400 mW/cm²[10秒]脉冲和一个400 mW/cm²[20秒]脉冲,脉冲间隔为10秒;以及脉冲固化II(PCII)-两个400 mW/cm²[20秒]脉冲,脉冲间隔为20秒。一个应变监测装置测量了光聚合过程中和光聚合后长达60分钟内与各种固化模式相关的线性聚合收缩。每种固化模式制作五个样本。数据采用单因素方差分析和Scheffe事后检验进行分析,显著性水平为0.05。光聚合后立即观察到,与PDI相关的凝胶后收缩显著低于与PDII、SS和PCI相关的凝胶后收缩。光聚合后1分钟时,与PDII和SS相比,PDI的收缩显著更低。仅在10、30和60分钟时观察到PDI和SS之间的收缩存在显著差异。在所有时间间隔内,对照与所有脉冲激活/软启动聚合方案之间的凝胶后收缩均无显著性差异。
