Journal article
Optimising the biocompatibility of 3D printed photopolymer constructs in vitro and in vivo
CGY Ngan, CD O'Connell, R Blanchard, M Boyd-Moss, RJ Williams, J Bourke, A Quigley, P McKelvie, RMI Kapsa, PFM Choong
Biomedical Materials Bristol | IOP PUBLISHING LTD | Published : 2019
Abstract
3D printing is a rapid and accessible fabrication technology that engenders creative custom design solutions for cell scaffolds, perfusion systems and cell culture systems for tissue engineering. Critical to its success is the biocompatibility of the materials used, which should allow long-term tissue culture without affecting cell viability or inducing an inflammatory response for in vitro and in vivo applications. Polyjet 3D printers offer arguably the highest resolution with the fewest design constraints of any commercially available 3D printing systems. Although widely used for rapid-prototyping of medical devices and 3D anatomical modelling, polyjet printing has not been adopted by the ..
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Awarded by NHMRC Postgraduate scholarship
Awarded by NHMRC Practitioner Fellowship
Funding Acknowledgements
The work reported was supported by the Aikenhead Centre of Medical Discovery Research Endowment Fund, Australian Research Council and MTPConnect. CN is supported by a NHMRC Postgraduate scholarship (App 1133271). PC is supported by a NHMRC Practitioner Fellowship (App 1154203). The authors thank the Experimental and Medical Surgical Unit at St Vincent's Hospital Melbourne for the animal surgeries and perioperative care, and the RMIT Microscopy and Microanalysis Facility for assistance with imaging.