Additive Manufacturing Innovation for Orthopaedic Application
13 June 2021, Sunday
14:00-16:00 (London); 8:00-10:00 (New York); 21:00-23:00 (Beijing)
Zooming info:
https://swanseauniversity.zoom.us/j/8266570519?pwd=aXdrN1pOUFhqSFlSYlFkQjVvNDRHQT09
Meeting ID: 826 657 0519
Passcode: 718288
Join by SIP: 8266570519@zoomcrc.com
Join by H.323: 162.255.37.11 (US West)
Opening Remarks and Introduction (5 minutes)
Prof. Qian Wang
University of South Carolina, USA
Additive manufacturing innovation in orthopaedic application-UCL/RNOH practice (10 minutes)
Prof. Chaozong Liu
University College London, UK
Present and future of standardization of additive manufacturing in the medical field (20 minutes)
Prof. Mario Monzón
University of Las Palmas de Gran Canaria, Spain
Reactive jet impingement: a new 3D bioprinting process for orthopaedic applications (20 minutes)
Prof. Kenneth Dalgarno
Sir James Woodeson Professor of Manufacturing Engineering, Newcastle University, UK
The applications of additive manufacturing in othopaedics, the design, process, and evaluations (20 minutes)
Prof. Dichen Li & Prof. Ling Wang
Xi’an Jiaotong University, China
Q&A + Panel Discussion (30 minutes): Panelists:
Prof. Wei Sun
Tsinghua University, China; Drexel University, USA
Prof. Paulo Bartolo
University of Manchester, UK
Organizing Committee (Alphabetically):
Prof. Xu Cao
Department of Orthopaedics, Johns Hopkins University, USA
Prof. Xiaodong Guo
Department of Orthopaedics, Wuhan Union Hospital, China
Prof. Bin Li
Institute of Orthopaedics, Soochow University, China
Prof. Zengwu Shao
Department of Orthopaedics, Wuhan Union Hospital, China
Prof. Qian Wang
University of South Carolina, USA
Dr. Zhidao Xia
Swansea University Medical School, Swansea, UK
Prof. Weihua Xu
Department of Orthopaedics, Wuhan Union Hospital, China
Dr. Mario Monzón is a doctor industrial engineer and full professor in the Mechanical Engineering Department of Las Palmas de Gran Canaria University (ULPGC). He is coordinator of the research group of Integrated and Advanced Manufacturing, whose main research fields are Polymer processing, additive manufacturing (AM), rapid tooling, natural fibers and applications in composite materials and technical textiles, circular economy, and biomaterials for additive manufacturing and fabrication. He is a member of the committee ISO TC261 and CEN TC438 for standardization of additive manufacturing technologies, representing Spain in such a committee. Also, He is the convenor of the Joint working group JWG11 “Additive Manufacturing for Plastics” with the participation of experts from ISO TC261 (AM), ISO TC61 (thermoplastics) and ASTM F42 (AM). Coordinator of the PhD program of Chemical, Mechanical and Manufacturing Engineering of ULPGC. Member of the manager board of the doctorate school at of ULPGC. Coordinator of the research master of Advanced Technologies and Industrial Processes. Participation in 32 national and European research projects (20 of them as coordinator), 18 research projects funded by companies, 67 scientific publications (40 in indexed publications), participation in 62 proceedings of conferences, supervisor of 7 doctoral thesis, 7 national patents and 1 international patents (in 5 countries). Editor of the book “Additive Manufacturing-Developments in Training and Education (Springer) and the book “Guía de tecnologías de Rapid Manufacturing”. Member of the editorial board of the international journal “Bio-design and Manufacturing (Springer). Several keynote speakers and 2 plenary speakers at international conferences.
Prof. Kenny Dalgarno is Sir James Woodeson Professor of Manufacturing Engineering at Newcastle University, Deputy Director of the Arthritis Research UK Tissue Engineering Centre, Deputy Director of the EPSRC Centre for Innovative Manufacture in Medical Devices and coordinator of the FP7 RESTORATION project. Kenny is also the Newcastle University lead investigator for the EPSRC Centre for Doctoral Training in Additive Manufacture and 3D Printing. For the past decade he has been researching in the area of additive manufacture, with applications in rapid prototyping and manufacturing, polymer engineering, and with an increasing , emphasis on applications in biomedical engineering, tissue engineering and regenerative medicine, with work supported by the EPSRC, the European Commission, Arthritis Research UK, the Carbon Trust, and industry.
Prof. Chaozong Liu is a Professor of Biomedical Materials and the group leader of UCL Orthopaedic Bioengineering Research Group within the Division of Surgery & Interventional Science University College London, in association with the Royal National Orthopaedic Hospital.
Chaozong’s research interests are directed toward the development of enhanced biomaterials for medical device applications with particular emphasis on the promoting interactions on the sub-micron to nanometre scale for applications in orthopaedic tissue engineering and regenerative medicine. His research in area is supported by Innovate UK, Versus Arthritis UK, EU Horizon2020, EPSRC, Royal Society, etc. Core projects in this area include: Biomaterials innovation for early intervention of osteoarthritis; Novel osteochondral scaffold technology for treatment of large cartilage defects; Novel biomimetic articulating surface for enhancing bio tribological performance of total hip replacements; Titanium implant surface modification for reducing biofilm formation.
Prof. Professor Dichen Li is a full professor at Xi'an Jiaotong University in China. He is currently the director of the State Key Lab for Manufacturing System Engineering. His research scope covers additive manufacturing and biofabrication. He has published more than 400 papers and obtained 70 Chinese Invention Patents. He has been awarded the second prize of national technological fabrication and the second prize of national science and technology progress.
Prof. Ling Wang is a for of the School of Mechanical Engineering at Xi'an for Jiaotong University. Her research interest focuses on 3D Bioprinting and Biomechanics in Orthopeadics. She is a member of the National Professional Standardization Technical Committee (SAC/TC110/SC1), member of the Medical Additive Manufacturing Committee of the China Medical Equipment Association, and a member of the Bio-Manufacturing Engineering Branch of the Chinese Mechanical Engineering Society. Prof. Wang has led many projects sponsored by the Natural Science Foundation, the National Science and Technology Support Program, the Key R&D Program of the Ministry of Science and Technology, the EU Framework Agreement Horizon 2020, the Royal Engineering Association of Britain and the China-Germany Scholarship Fund Committee. She has published significantly and has obtained 30 patents in Additive Manufacturing related field.
Prof. Dr. Wei Sun is currently appointed as National “Thousand-Talent” Distinguished Professor and Director of the Biomanufacturing Research fields at Tsinghua University, China, and Albert Soffa Chair Professor of Mechanical Engineering at Drexel University, USA. His research has been on Biofabrication, 3D Bio-Printing, Computer-Aided Tissue Engineering, and Additive Manufacturing. His research has been sponsored by the National Science Foundation (NSF), Defense Advanced Research Projects Agency (DARPA), National Aeronautics and Space Administration (NASA), Chinese Natural Science Foundation (CNSF) and Chinese Ministry of Science and Technology. He has published over 350 journal and conference papers/abstracts and conducted over 230 national and international the invited presentations in the field of his research. He is currently serving as Editor-in-Chief for the journal Biofabrication and served as Founding President of the International Society of Biofabrication from 2010-2014.
Prof. Paulo Bartolo is Chair Professor on Advanced Manufacturing at the School of Mechanical, Aerospace and Civil Engineering (MACE), University of Manchester (UK); He is the Head of the Manufacturing Group. At the University of Manchester is the Industry 4.0 Academic Lead, member of the Management Board of the EPSRC & MRC Centre for Doctoral Training (CDT) in Regenerative Medicine and theme leader of the “Industry 4.0” Societal Challenge area within the Digital Futures.
