From the printer: Potential of three-dimensional printing for orthopaedic applications

Sze-Wing Mok; Razmara Nizak; Sai-Chuen Fu; Ki-Wai Kevin Ho; Ling Qin; Daniël B F Saris; Kai-Ming Chan; Jos Malda

doi:10.1016/j.jot.2016.04.003

From the printer: Potential of three-dimensional printing for orthopaedic applications

Sze-Wing Mok
, Razmara Nizak
, Sai-Chuen Fu
, Ki-Wai Kevin Ho
, Ling Qin
, Daniël B F Saris
, Kai-Ming Chan
, Jos Malda

Lui Che Woo Institute of Innovative Medicine, The Chinese University of Hong Kong, Hong Kong, China.
University Medical Center Utrecht
MIRA Institute for Biomedical Technology and Technical Medicine, Department of Tissue Regeneration, University of Twente, Enschede, The Netherlands.

Research output: Contribution to journal › Review article › peer-review

Abstract

Three-dimensional (3D) printers can create complex structures based on digital models. The combination of medical diagnostic imaging with 3D printing has great potential in day-to-day clinics for patient-specific solutions and applications. In the musculoskeletal system, 3D printing is used to create custom-made implants, patient-specific instrumentation, and to regenerate tissues, in particular bone and cartilage. The major limiting factors for bioprinting include the lack of printing techniques with optimal printing resolution and materials with ideal mechanical strengths while maintaining cellular functionality. Before "tissues from the printer" can be widely applied, further research and development on improving and optimising printing techniques and biomaterials, and knowledge on the development of printed constructs into living tissues, is essential for future clinical application of this technology.

Original language	English
Pages (from-to)	42-49
Number of pages	8
Journal	Journal of Orthopaedic Translation
Volume	6
DOIs	https://doi.org/10.1016/j.jot.2016.04.003
Publication status	Published - Jul 2016

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title = "From the printer: Potential of three-dimensional printing for orthopaedic applications",

abstract = "Three-dimensional (3D) printers can create complex structures based on digital models. The combination of medical diagnostic imaging with 3D printing has great potential in day-to-day clinics for patient-specific solutions and applications. In the musculoskeletal system, 3D printing is used to create custom-made implants, patient-specific instrumentation, and to regenerate tissues, in particular bone and cartilage. The major limiting factors for bioprinting include the lack of printing techniques with optimal printing resolution and materials with ideal mechanical strengths while maintaining cellular functionality. Before {"}tissues from the printer{"} can be widely applied, further research and development on improving and optimising printing techniques and biomaterials, and knowledge on the development of printed constructs into living tissues, is essential for future clinical application of this technology.",

author = "Sze-Wing Mok and Razmara Nizak and Sai-Chuen Fu and Ho, \{Ki-Wai Kevin\} and Ling Qin and Saris, \{Dani{\"e}l B F\} and Kai-Ming Chan and Jos Malda",

year = "2016",

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doi = "10.1016/j.jot.2016.04.003",

language = "English",

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TY - JOUR

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T2 - Potential of three-dimensional printing for orthopaedic applications

AU - Mok, Sze-Wing

AU - Nizak, Razmara

AU - Fu, Sai-Chuen

AU - Ho, Ki-Wai Kevin

AU - Qin, Ling

AU - Saris, Daniël B F

AU - Chan, Kai-Ming

AU - Malda, Jos

PY - 2016/7

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N2 - Three-dimensional (3D) printers can create complex structures based on digital models. The combination of medical diagnostic imaging with 3D printing has great potential in day-to-day clinics for patient-specific solutions and applications. In the musculoskeletal system, 3D printing is used to create custom-made implants, patient-specific instrumentation, and to regenerate tissues, in particular bone and cartilage. The major limiting factors for bioprinting include the lack of printing techniques with optimal printing resolution and materials with ideal mechanical strengths while maintaining cellular functionality. Before "tissues from the printer" can be widely applied, further research and development on improving and optimising printing techniques and biomaterials, and knowledge on the development of printed constructs into living tissues, is essential for future clinical application of this technology.

AB - Three-dimensional (3D) printers can create complex structures based on digital models. The combination of medical diagnostic imaging with 3D printing has great potential in day-to-day clinics for patient-specific solutions and applications. In the musculoskeletal system, 3D printing is used to create custom-made implants, patient-specific instrumentation, and to regenerate tissues, in particular bone and cartilage. The major limiting factors for bioprinting include the lack of printing techniques with optimal printing resolution and materials with ideal mechanical strengths while maintaining cellular functionality. Before "tissues from the printer" can be widely applied, further research and development on improving and optimising printing techniques and biomaterials, and knowledge on the development of printed constructs into living tissues, is essential for future clinical application of this technology.

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DO - 10.1016/j.jot.2016.04.003

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SP - 42

EP - 49

JO - Journal of Orthopaedic Translation

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ER -

From the printer: Potential of three-dimensional printing for orthopaedic applications

Abstract

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