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CONTACT INFORMATION
Office : (852) 3505-2721
Email : elvis_chui@cuhk.edu.hk
ACADEMIC ENGAGEMENT
Postgraduate teaching:
MPhil/PhD in Orthopaedics & Traumatology
MSc in Geriatric Orthopaedics and Biomedical Engineering
ORCID: 0000-0003-4195-6773 |
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Professor CHUI Chun-sing, Elvis 徐振星 |
BSc(Hons, CityU), MSc(CUHK), PhD(CUHK)
Research Assistant Professor of Orthopaedics and Traumatology
矯形外科及創傷學系研究助理教授
BIOGRAPHY
Professor Chui Chun-Sing focuses on Computer-assisted surgical planning and development of novel technologies in the O&T department with 14 published peered-review manuscripts and 12 approved research grants and contracts as PI and Co-I. He is also the Honorary Advisor by the Hospital Authority to educate and train the entire 3D printing team and surgeons for surgery 3D planning, patient specific instrument design and 3D printing operations. He has assisted in surgery planning and provided intra-operative support for navigation guided surgeries for more than 10 years and more than 400 cases. Besides, he has been the manager of the Computer Aided Surgical Modeling (CASM) Laboratory since 2013. He has also been providing critical assistance for the department in 3D planning, 3D designing and 3D printing for more than 300 surgery cases. He was invited by the Hospital Authority NTEC to the “Working Group on 3D Printing” in 2021 March to help establishing the 3D printing service in NTEC utilizing his fruitful experience in medical 3D printing.
Dr. Chui is specialized in research translation. He has been granted for 4 competitive grants, 2 non-competitive grants and 3 research contracts. He has pursued 7 international and local patents derived from the funded projects including robotics system, prosthesis and innovative treatment methodology. He was also the winner of the Dr. Yeung Sai-Hung Trophy in the 39th Annual Congress of Hong Kong Orthopaedic Association, representing the Best Paper Award in the Adult Joint Replacement Chapter.
EXPERTISE
- Orthopaedic Surgical Planning 3D Printing
- Artificial Intelligence and Image Analysis
- Prosthesis Design
SPECIALISED RESEARCH AREAS
- Application of AI in Orthopaedics
- Fracture Detection - Prosthesis Loosening Detection - Prosthesis and Bracing Design - 2D/3D Model Prediction - Scoliosis Detection, Prediction & Prevention
- Surgical Planning System
- AR Navigation System and Surgical Robot
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SELECTED PUBLICATION
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Chui CS, Lau CML, Ye X, Hung LH, Kwok KB, Chow KH, Yeung RMY, Cheung WH*, Yung PSH. Improving the performance of V-net architecture for volumetric medical image segmentation by implementing a gradient pre-processor. Clin Surg. 6:3383, 2021. |
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Wong RMY, Wong PY, Liu C, Chung YL, Wong KC, Tso CY, Chow SK, Cheung WH, Yung PS, Chui CS*, Law SW*. 3D printing in orthopaedic surgery: a scoping review of randomized controlled trials. Bone Joint Res. 10(12):807-19, 2021. |
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Chui CS, Leung KS, Qin JH, Shi DF, Augat P, Wong RMY, Chow SKH, Huang XY, Chen CY, Lai YX, Yung PSH, Qin L, Cheung WH*. Population-based and personalized design of total knee replacement prosthesis for additive manufacturing based on Chinese anthropometric data. Engineering. 7(3):386-94, 2021. |
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Chui CS, Lau LCM, Kwok CKB, Ng JP, Hung YK, Yung PSH, Fan JCH*. Tibial cutting guide (resector) holding pins position and subsequent risks of periprosthetic fracture in unicompartmental knee arthroplasty: a finite element analysis study. Journal of Orthopaedic Surgery and Research 2021 March, 16 (1) |
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Chui CS, Kwok KB, Mak KK, Yung PSH, Lau LCM*. Novel Application of 3D Printing to Development of a Homemade Posterior-Stabilized Knee Cement Spacer. Clin Surg. 2021;6(1):3385 |
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Lau LCM, Chui CS, Fan JCH, Man GCW, Hung YW, Ho KKW, Chung KY, Wan SYC, Chau WW, Yung PSH*, Bhandari M. Patient Specific Instrumentation (PSI) Referencing High Tibial Osteotomy Technological Transfer and Education: Protocol for a Double-blind, Randomized Controlled Trial (PROTECTED HTO Trial). BMJ Open 2021 February, 11 (2) |
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Chim YN, Chow SKH, Mak SY, Li MMC, Yung BCH, Yau EWF, Chui CS. 3D-printed cobalt-chromium porous metal implants showed enhanced bone-implant interface and bone in-growth in a rabbit epiphyseal bone defect model. Bone Reports 2020 October, 13:100375 |
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Fang C*, Cai H, Kuong E,Chui CS, Siu YC, Ji T, Igor D. Surgical applications of three-dimensional printing in the pelvis and acetabulum: from models and tools to implants. Der Unfallchirurg 2019 March, 122 (4) |
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Qin LY, Wen JZ, Chui CS, Leung KS. Housing design and testing of a surgical robot developed for orthopaedic surgery. J Orthop Translat. 5:72-80, 2016. |
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Kuang S, Leung KS, Wang T, Hu L, Chui CS, Liu WY, Wang Y. A novel passive/active hybrid robot for orthopaedic trauma surgery. International Journal of Medical Robotics and Computer Assisted Surgery. 2012 December, 8 (4) |
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