超快速光聚合大块充填树脂复合材料中的聚合收缩和收缩应力发展
Polymerization shrinkage and shrinkage stress development in ultra-rapid photo-polymerized bulk fill resin composites.
作者信息
Algamaiah Hamad, Silikas Nikolaos, Watts David C
机构信息
Biomaterials Science, Division of Dentistry, School of Medical Sciences, University of Manchester, UK; Department of Restorative Dental Sciences, College of Dentistry, King Saud University, Saudi Arabia.
Biomaterials Science, Division of Dentistry, School of Medical Sciences, University of Manchester, UK; Photon Science Institute, University of Manchester, UK.
出版信息
Dent Mater. 2021 Apr;37(4):559-567. doi: 10.1016/j.dental.2021.02.012. Epub 2021 Mar 6.
OBJECTIVE
To determine the polymerization shrinkage (%) and shrinkage stress (MPa) characteristics of ultra-rapid photo-polymerized bulk fill resin composites.
METHODS
Two ultra-rapid photo-polymerized bulk fill (URPBF) materials: PFill and PFlow were studied, along with their comparators ECeram and EFlow. PFill contains an addition fragmentation chain transfer (AFCT) agent. The URPBR materials were irradiated using two different 3 s high irradiance protocols (3000 and 3200 mW/cm based on Bluephase PowerCure and VALO LCUs, respectively) and one 10 s standard protocol (1200 mW/cm based on a Bluephase PowerCure LCU). Bonded disk and Bioman II instruments were used to measure Polymerization shrinkage % and shrinkage stress MPa, respectively, for 60 min at 23 ± 1 °C (n = 5). Maximum shrinkage-rate and maximum shrinkage stress-rate were also calculated for 15 s via numerical differentiation. The data were analyzed via multiple One-way ANOVA and Tukey post-hoc tests (α = 0.05).
RESULTS
PFill groups, regardless of their irradiance protocol, showed significantly lower PS than the comparator, ECeram (p < 0.05). However, PFlow irradiated via different protocols, was comparable to EFlow and ECeram (p > 0.05). PFill consistently produced stress results which were significantly lower than ECeram (p < 0.05) and were comparable for both high irradiance protocols (p > 0.05). PFlow only exhibited significantly higher shrinkage stress when polymerized with the 3 sVALO protocol (p < 0.05). The maximum shrinkage strain-rate (%/s) was significantly lower in PFill-10s and PFill-3s groups (using PowerCure LCU) compared to ECeram. However, no differences were seen between PFlow and EFlow (p > 0.05). The maximum shrinkage stress-rate of PFill and PFlow was comparable between different irradiation protocols, as well as to their comparator ECeram (p > 0.05).
SIGNIFICANCE
High irradiation protocols over ultra-short periods led to slightly lower shrinkage strain but slightly higher stress, possibly due to reduced network mobility. The AFCT agent incorporated in PFill composite seemed to reduce shrinkage stress development, even with high irradiance protocols.
目的
测定超快速光固化大块充填树脂复合材料的聚合收缩率(%)和收缩应力(MPa)特性。
方法
研究了两种超快速光固化大块充填(URPBF)材料:PFill和PFlow,以及它们的对照材料ECeram和EFlow。PFill含有一种加成断裂链转移(AFCT)剂。使用两种不同的3秒高辐照度方案(分别基于Bluephase PowerCure和VALO LCU的3000和3200 mW/cm²)和一种10秒标准方案(基于Bluephase PowerCure LCU的1200 mW/cm²)对URPBR材料进行辐照。分别使用粘结圆盘和Bioman II仪器在23±1℃下测量60分钟的聚合收缩率(%)和收缩应力(MPa)(n = 5)。还通过数值微分计算了15秒内的最大收缩率和最大收缩应力率。数据通过多重单因素方差分析和Tukey事后检验进行分析(α = 0.05)。
结果
无论辐照方案如何,PFill组的聚合收缩率均显著低于对照材料ECeram(p < 0.05)。然而,通过不同方案辐照的PFlow与EFlow和ECeram相当(p > 0.05)。PFill始终产生显著低于ECeram的应力结果(p < 0.05),并且两种高辐照度方案的结果相当(p > 0.05)。仅当采用3秒VALO方案聚合时,PFlow的收缩应力显著更高(p < 0.05)。与ECeram相比,PFill - 10s组和PFill - 3s组(使用PowerCure LCU)的最大收缩应变率(%/s)显著更低。然而,PFlow和EFlow之间未观察到差异(p > 0.05)。PFill和PFlow在不同辐照方案下的最大收缩应力率相当,与其对照材料ECeram也相当(p > 0.05)。
意义
超短时间的高辐照度方案导致收缩应变略低但应力略高,这可能是由于网络流动性降低所致。PFill复合材料中所含的AFCT剂似乎能降低收缩应力的产生,即使在高辐照度方案下也是如此。
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