How does artificial aging affect the mechanical properties of occlusal splint materials processed via various technologies?

IF 2.7 Q1 DENTISTRY, ORAL SURGERY & MEDICINE
Joanna Weżgowiec, Andrzej Małysa, Mieszko Więckiewicz
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Abstract

Background: The mechanical reliability of occlusal splints and their long-term behavior are significant factors determining the clinical outcome of temporomandibular disorder (TMD) therapy. However, improvements are still needed in this area.

Objectives: This in vitro study aimed to (1) compare the hardness and flexural properties of materials manufactured using 3 techniques for occlusal splint fabrication (conventional heat curing, thermoforming followed by light curing, and three-dimensional (3D) printing) and (2) analyze the effect of artificial aging on the properties of the materials.

Material and methods: A total of 120 disc-shaped specimens were manufactured for the Shore D hardness evaluation, and 120 bar-shaped specimens were fabricated for the flexural properties evaluation (n = 15 for each group). Each material was tested in 2 groups of specimens, non-aged and artificially aged (stored for 90 days in water at 37°C). Statistical differences were assessed using one-way or two-way parametric analysis of variance (ANOVA) with Tukey's or Šídák's post-hoc test, or the non-parametric KruskalWallis test with Dunn's post-hoc test. A p-value of less than 0.05 was considered statistically significant.

Results: The mechanical properties of the materials varied significantly. Among the non-aged materials, the 3D-printed resin exhibited the highest Shore D hardness (85.3D), but it decreased significantly after 90 days of water storage (80.4D, p < 0.0001). The unpolished heat curing acrylic showed the highest resistance to artificial aging (p = 0.0436). However, its hardness decreased significantly after polishing (81.0D vs. 83.4D, p = 0.0015). The conventional heat curing material also exhibited superior flexural properties (σ = 89.63 MPa, E = 2616 MPa). All tested materials were susceptible to deterioration due to aging.

Conclusions: The conventional method of occlusal splint fabrication remains the optimal choice, particularly for long-term use. However, it is still necessary to develop materials that are resistant to aging in order to ensure successful clinical performance.

人工老化如何影响通过各种技术加工的咬合夹板材料的机械性能?
背景:咬合夹板的机械可靠性及其长期使用性能是决定颞下颌关节紊乱症(TMD)临床治疗效果的重要因素。然而,这方面仍需改进:本体外研究旨在:(1)比较使用三种咬合夹板制造技术(传统热固化、热成型后光固化和三维(3D)打印)制造的材料的硬度和弯曲性能;(2)分析人工老化对材料性能的影响:共制作了 120 个圆盘状试样用于邵氏 D 硬度评估,120 个棒状试样用于弯曲性能评估(每组 n = 15)。每种材料都分两组试样进行测试,即未老化和人工老化(在 37°C 的水中存放 90 天)。统计差异采用单向或双向参数方差分析(ANOVA)并进行 Tukey 或 Šídák 事后检验,或采用非参数 KruskalWallis 检验并进行 Dunn 事后检验。P 值小于 0.05 即为具有统计学意义:结果:材料的机械性能差异显著。在未老化的材料中,3D 打印树脂表现出最高的邵氏 D 硬度(85.3D),但在储水 90 天后硬度明显下降(80.4D,p < 0.0001)。未经抛光的热固化丙烯酸树脂表现出最高的耐人工老化性(p = 0.0436)。不过,抛光后其硬度明显下降(81.0D 对 83.4D,p = 0.0015)。传统的热固化材料还表现出更优越的抗弯性能(σ = 89.63 兆帕,E = 2616 兆帕)。所有测试材料都容易因老化而变质:结论:传统的咬合夹板制作方法仍然是最佳选择,尤其是在长期使用的情况下。结论:传统的咬合夹板制作方法仍然是最佳选择,尤其是在长期使用的情况下,但仍有必要开发抗老化的材料,以确保成功的临床表现。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
4.00
自引率
3.80%
发文量
58
审稿时长
53 weeks
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