Biological Properties of 3D-Printed Zirconia Implants with p-Cell Structures

抗弯强度 生物医学工程 立方氧化锆 3d打印 牙科 材料科学 医学 复合材料 陶瓷
作者
Wei Qin,MH. Shen,Ning Gan,B.B. Xing,Jiahui Sun,Zhe Zhao,Ting Jiao
出处
期刊:Journal of Dental Research [SAGE Publishing]
卷期号:103 (4): 388-397 被引量:8
标识
DOI:10.1177/00220345231222819
摘要

Research on 3-dimensional (3D) printed porous zirconia-based dental implants is still in its infancy. This study aimed to evaluate the biological responses of novel zirconia implants with p-cell structures fabricated by 3D printing. The solid zirconia samples exhibited comparable density, 3-point flexural strength, and accelerated aging properties compared to specimens prepared previously by conventional methods. Cell-based experiments showed that the p-cell structure promoted cell proliferation, adhesion, and osteogenesis-related protein expression. Mechanical tests showed that both p-cell and control implants could withstand a torque of 35 Ncm without breaking. The mean maximum breaking loads of p-cell and control implants were 1,222.429 ± 115.591 N and 1,903.857 ± 250.673 N, respectively, which were much higher than the human physiological chewing force and human mean maximum occlusal force. An animal experiment showed that the bone trabeculae around the implants were significantly thicker, more numerous, and denser in the p-cell group than in the control group. This work could provide promising guidance for further exploring 3D printing techniques for porous zirconia bionic implants in dentistry.
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