Establishment and Development:
The 3D printing Dental Medicine Research Center of Shandong University was born from a shared vision and passion for the basic research and clinical transformation of 3D printing technology in stomatology. Recognizing the need for transforming from traditional dental treatment into digital precision treatment, our founders decided to establish a laboratory dedicated to promote the transformation and application of 3D printing technology in the field of stomatology. The journey of the 3D printing Dental Medicine Research Center of Shandong University began with the demand of personalized treatment in stomatology. With a small but dedicated team, we set out to establish a research laboratory that would be recognized for its excellence and impact. Since its inception, the 3D printing Dental Medicine Research Center of Shandong University has gone through a remarkable journey of growth and development. We have expanded our team to include more than 50 members committed to the research and development of 3D printing in stomatology. Our research has evolved to address the fabrication of complex surgical guide, an accurate reconstruction of the jaw, orbital floor and ears. Additionally, we have forged valuable collaborations and partnerships with Shanghai Jiao Tong University, Peking University, and University of Hong Kong to further enhance our research capabilities.
Team Members:
Our team is composed of professor Qingguo Lai, the leading experts in oral and maxillofacial surgery and plastic surgery, professor Bin Zou, the leading experts in 3D printing technology, efficient precision machining technology, robot processing technology. Young and passionate researchers including Hongyu Xing, the doctor of engineering specialized in research on 3D printing of ceramics and polymer materials, as well as Hongyu Zhao, the doctor of medicine major in the research of bone repair and regeneration and other support staffs dedicated to excellence. Additionally, we also engaged professor Zhiyuan Zhang, the member of the Chinese Academy of Engineering, Kaili Lin, from Shanghai JiaoTong University as an academic advisory board. Together, they work tirelessly to hammer at the 3D ceramic printing-based regeneration and repair of large bone defects and the 3D bioprinting-based organ reconstruction.
Research Areas:
The 3D printing Dental Medicine Research Center of Shandong University specializes in the 3D ceramic printing-based regeneration and repair of large bone defects and the 3D bioprinting-based organ reconstruction.
Research Achievements:
We have made significant contributions in the model surgical assisted accurate reconstruction of craniomaxillofacial as well as the head and neck defects, 3D printed implants heling facial precision plastic surgery and development of HA paste system suitable for SLA-3D printing.
Main Publications:
Hongyu Zhao; Hongyu Xing; Yixuan Zhao; Qinghua Chen; Bin Zou; Qingguo Lai; Additive manufacturing of graphene oxide/hydroxyapatite bioceramic scaffolds with reinforced osteoinductivity based on digital light processing technology, Materials & Design, 2022, 223:111231-111231
Chiyang Zhong; Yixuan Zhao; Hongyu Xing; Runqi Xue; Tianxiang Song; Xiaopeng Tang; Kaiwen Zhu; Yanwei Deng; Qingguo Lai Q ; Assembly of 3D-printed Ti scaffold and free vascularized fibula using a customized Ti plate for the reconstruction of mandibular defects, Bio-Design and Manufacturing, 2022, 5(2): 424-429
Hongyu Zhao; Hongyu Xing; Tianxiang Song; Xiaopeng Tang; Kaiwen Zhu; Yanwei Deng; Yun Zhao; Weihua Liu; Runqi Xue; Qingguo Lai. Mechanical properties, microstructure, and bioactivity of β-Si3N4/HA composite ceramics for bone reconstruction, Ceramics International, 2021, 47(24): 34225-34234
Qinghua Chen; Bin Zou; Yang Wang; Kaiwen Zhu; Yanwei Deng; Chuanzhen Huang; Qingguo Lai. 3D printing and osteogenesis of loofah-like hydroxyapatite bone scaffolds, Ceramics International, 2021, 47(14): 20352-20361
Qinghua Chen; Bin Zou; Yang Wang; Runqi Xue; Hongyu Xing; Xiangsong Fu; Chuanzhen Huang; Peng Yao; Qingguo Lai. A study on biosafety of HAP ceramic prepared by SLA-3D printing technology directly, Journal of the Mechanical Behavior of Biomedical Materials, 2019, 98: 327-335
Peng Guo, Bin Zou*, Chuanzhen Huang, Huabing Gao, Study on microstructure, mechanical properties and machinability ofefficiently additive manufactured AISI 316L stainless steel by high-power direct laser deposition, Journal of Materials Processing Technology 2017, 240: 12-22
Peng Wang, Bin Zou*, Hongchuan Xiao, Shouling Ding, Chuanzhen Huang. Effects of printing parameters of fused deposition modeling on mechanical properties, surface quality, and microstructure of PEEK. Journal of Materials Processing Tech. 271 (2019) 62-74.
Shouling Ding, Bin Zou*, Peng Wang, Hongjian Ding. Effects of nozzle temperature and building orientation on mechanical properties and microstructure of PEEK and PEI printed by 3D-FDM. Polymer Testing. 78 (2019) 105948.
Hongyu Xing, Bin Zou*, Shasha Li, Xiangsong Fu. Study on surface quality, precision and mechanical properties of 3D printed ZrO2 ceramic components by laser scanning stereolithography. Ceramics International. 43 (2017) 16340-16347.
Peng Wang, Bin Zou*, Shouling Ding, Lei Li, Chuanzhen Huang. Effects of FDM-3D printing parameters on mechanical properties and microstructure of CF/PEEK and GF/PEEK. Chinese Journal of Aeronautics. 34 (2021) 236–246.
Facilities & Resources:
Our state-of-the-art facilities and cutting-edge technology enable us to conduct research that is both rigorous and innovative. We boast dual nozzle 3D printer and 3D bioprinters.
Collaborations & Partnerships:
We believe in the power of collaboration. That's why we have forged partnerships with Shanghai Jiao Tong University, Peking University, and University of Hong Kong to further advance our research.
Recreational Activities:
The atmosphere in the research group is harmonious. In leisure time, the research group camped, skied and climbed mountains together. Research members often participate in academic exchange meetings.
Other Features:
The laboratory focuses on the clinical difficulties in the accurate repair of composite tissue defects in the head and neck area of the five facial features, optimizes the additive material system of biological materials such as titanium metal, bioceramics and polymers, and develops bionic tissue engineering scaffolds to realize the reconstruction of complex living tissues and organs. Strive to break through the bottleneck of regeneration and repair of composite tissue and organ defects in the head and neck region of the five senses and complete the clinical transformation and application of related medical products.
Contact:
For more information or inquiries, please contact us at laiqingguo@sdu.edu.cn.