Journal article
Handheld Co-Axial Bioprinting: Application to in situ surgical cartilage repair
S Duchi, C Onofrillo, CD O'Connell, R Blanchard, C Augustine, AF Quigley, RMI Kapsa, P Pivonka, G Wallace, C Di Bella, PFM Choong
Scientific Reports | NATURE PORTFOLIO | Published : 2017
Abstract
Three-dimensional (3D) bioprinting is driving major innovations in the area of cartilage tissue engineering. Extrusion-based 3D bioprinting necessitates a phase change from a liquid bioink to a semi-solid crosslinked network achieved by a photo-initiated free radical polymerization reaction that is known to be cytotoxic. Therefore, the choice of the photocuring conditions has to be carefully addressed to generate a structure stiff enough to withstand the forces phisiologically applied on articular cartilage, while ensuring adequate cell survival for functional chondral repair. We recently developed a handheld 3D printer called "Biopen". To progress towards translating this freeform biofabric..
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Grants
Awarded by Australian Research Council Centre of Excellence Scheme
Funding Acknowledgements
Funding from (1) Arthritis Australia - Zimmer Australia Grant, (2) Victorian Orthopaedic Research Trust, ( 3) Foundation for Surgery John Loewenthal Research Grants (RACS) and (4) The Australian Research Council Centre of Excellence Scheme (Project Number CE 140100012) is gratefully acknowledged. This work was carried out with the support from the St Vincent's Hospital (Melbourne) Research Endowment Fund. The authors would like to thank the Australian National Nanofabrication Facility - Materials node for equipment use.