Department of Prosthodontics, College of Dentistry, Yonsei University, Seoul, Republic of Korea.
Department of Orofacial and Oral Medicine, College of Dentistry, Yonsei University, Seoul, Republic of Korea.
J Mech Behav Biomed Mater. 2022 Apr;128:105127. doi: 10.1016/j.jmbbm.2022.105127. Epub 2022 Feb 14.
This study analyzed the flexural properties, Vickers hardness, degree of conversion (DC), and cell viability of 3D printed crown and bridge resin postcured using various types of postcuring equipment (PCE). 3D printed specimens were postcured for various times using different types of 3D printing PCE [for 5, 15, and 30 min using LC 3D Print Box (LC), Form Cure (FC), Cure M (CM), and Veltz 3D (VE) devices] and the VALO handheld light-curing (VA) device for 20, 40, and 60 s. Neither the flexural strength (132.27-145.79 MPa) nor the flexural modulus (1.52-1.83 GPa) differed significantly when postcuring for 30 min using the LC, FC, CM, or VE device, or for 20, 40, or 60 s of postcuring using the VA device (p > 0.05). The Vickers hardness was highest after 30 min of postcuring for all groups, and varied significantly with the postcuring time in the LC (p < 0.001) and CM (p < 0.001) groups. DC was significantly higher for the 5-min CM group (84.97 ± 4.02%) than for the GS, 30-min FC, 5-min VE, and 20-s VA groups. Cell viability of the postcured resin specimens was 56.46-92.29%, and varied significantly in the CM and VE groups according to the postcuring time (p < 0.05). Confocal laser scanning microscopy observations showed well-developed cell morphology and numerous cell-cell contacts in all groups except the GS group. This study found that the use of different types of PCE did not significantly affect the flexural properties of 3D printed crown and bridge resin, whereas there were significant variations in DC, Vickers hardness, and cell viability.
本研究分析了使用不同类型后固化设备(PCE)对 3D 打印冠桥树脂进行后固化后,其弯曲性能、维氏硬度、转化率(DC)和细胞活力。使用不同类型的 3D 打印 PCE(LC 3D Print Box [LC]、Form Cure [FC]、Cure M [CM]和 Veltz 3D [VE]设备,5、15 和 30 分钟)和 VALO 手持光固化(VA)设备 20、40 和 60 秒对 3D 打印试件进行不同时间的后固化。使用 LC、FC、CM 或 VE 设备后固化 30 分钟,或使用 VA 设备后固化 20、40 或 60 秒,其弯曲强度(132.27-145.79 MPa)和弯曲模量(1.52-1.83 GPa)均无显著差异(p>0.05)。所有组别的后固化 30 分钟后维氏硬度最高,且 LC(p<0.001)和 CM(p<0.001)组的后固化时间显著不同。CM 组的 5 分钟后固化的 DC(84.97±4.02%)显著高于 GS、30 分钟 FC、5 分钟 VE 和 20 秒 VA 组。后固化树脂试件的细胞活力为 56.46-92.29%,CM 和 VE 组的后固化时间不同,细胞活力也有显著差异(p<0.05)。共聚焦激光扫描显微镜观察显示,除 GS 组外,所有组的细胞形态发育良好,细胞间接触较多。本研究发现,使用不同类型的 PCE 对 3D 打印冠桥树脂的弯曲性能没有显著影响,但 DC、维氏硬度和细胞活力有显著差异。
