Biomechanical behavior of a 3D-printed denture base material.

IF 2.1 4区医学 Q2 DENTISTRY, ORAL SURGERY & MEDICINE

International Journal of Prosthodontics Pub Date : 2023-05-17 DOI:10.11607/ijp.8295

Viviane Cantelli, Vitor Trancoso Brito, Fabricio Mezzomo Collares, Alvaro Della Bona

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引用次数: 0

Abstract

Purpose: To evaluate relevant material properties (flexural strength (σf), elastic modulus (E), water sorption (Wsp) and solubility (Wsl), and biocompatibility) of a 3D-printed resin (3D) and a heat cured acrylic resin (AR-control) used for complete denture manufacturing, testing the hypothesis that constructs from both materials would present acceptable material properties for clinical use.

Materials and methods: The σf, E, Wsp and Wsl were evaluated according to the ISO 20795-1:2013 standard, and the biocompatibility was evaluated using 3-4,5-dimethyl-thiazol-2-yl-2.5-diphenyltetrazolium bromide (MTT) and sulforhodamine B (SRB) assays. Disk-shaped specimens were fabricated and used for Wsp (n = 5), Wsl (n = 5), and biocompatibility (n = 3). Bar-shaped specimens (n = 30) were fabricated and stored in 37⁰ C distilled water for 48 hours and 6 months before flexural testing in a universal testing machine with constant displacement rate (5 ± 1 mm/min) until fracture. Data from σf, E, Wsp, Wsl and biocompatibility were statistically analyzed using Student t test (α= 0.05), Weibull analysis was also used for σf and E data.

Results: Significant differences between the two polymers were found for the evaluated material properties. Water storage for 6 months did not affect the flexural strength of 3D. Yet, the additive manufactured polymer showed inadequate flexural strength and water solubility values.

Conclusion: Despite adequate biocompatibility and strength stability after 6 months of water storage, the additive manufactured polymer recommended for complete denture needs further development to improve the remaining material properties evaluated in this study.

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3d打印义齿基托材料的生物力学行为。

目的:评估用于全口义齿制造的3D打印树脂(3D)和热固化丙烯酸树脂(AR-control)的相关材料性能(挠曲强度(σf)、弹性模量(E)、吸水性(Wsp)和溶解度(Wsl)以及生物相容性)，验证两种材料构建的材料性能均可用于临床的假设。材料与方法:采用ISO 20795-1:2013标准评价其σf、E、Wsp和Wsl，采用3-4,5-二甲基噻唑-2-酰基-2.5-二苯基溴化四唑(MTT)和磺胺B (SRB)法评价其生物相容性。制作盘状标本并用于Wsp (n = 5)、Wsl (n = 5)和生物相容性(n = 3)。制作条形标本(n = 30)并在37⁰C蒸馏水中保存48小时和6个月，然后在恒定位移率(5±1 mm/min)的万能试验机中进行弯曲试验，直到断裂。σf、E、Wsp、Wsl和生物相容性数据采用Student t检验(α= 0.05)进行统计学分析，σf和E数据采用威布尔分析。结果:两种聚合物的材料性能有显著差异。储水6个月不影响3D的抗弯强度。然而，添加剂制造的聚合物表现出不足的抗弯强度和水溶性值。结论:尽管在水储存6个月后具有足够的生物相容性和强度稳定性，但推荐用于全口义齿的添加剂制造聚合物需要进一步开发以改善本研究评估的材料的其余性能。

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

International Journal of Prosthodontics 医学-牙科与口腔外科

CiteScore

3.20

自引率

4.30%

发文量

审稿时长

6-12 weeks

期刊介绍： Official Journal of the European Association for Osseointegration (EAO), the International College of Prosthodontists (ICP), the German Society of Prosthodontics and Dental Materials Science (DGPro), and the Italian Academy of Prosthetic Dentistry (AIOP) Prosthodontics demands a clinical research emphasis on patient- and dentist-mediated concerns in the management of oral rehabilitation needs. It is about making and implementing the best clinical decisions to enhance patients'' quality of life via applied biologic architecture - a role that far exceeds that of traditional prosthetic dentistry, with its emphasis on materials and techniques. The International Journal of Prosthodontics is dedicated to exploring and developing this conceptual shift in the role of today''s prosthodontist, clinician, and educator alike. The editorial board is composed of a distinguished team of leading international scholars.