• Ratheesraj Ratinam, Michelle Quayle, John Crock, Michelle Lazarus, Quentin Fogg, and Paul McMenamin.
• Department of Anatomy and Developmental Biology, Centre for Human Anatomy Education, Monash University, Clayton, Vic., Australia.
• J. Anat. 2019 Apr 1; 234 (4): 419-437.

AbstractThree-dimensional (3D) printing, or additive manufacturing, is now a widely used tool in pre-operative planning, surgical teaching and simulator training. However, 3D printing technology that produces models with accurate haptic feedback, biomechanics and visuals for the training surgeon is not currently available. Challenges and opportunities in creating such surgical models will be discussed in this review paper. Surgery requires proper tissue handling as well as knowledge of relevant anatomy. To prepare doctors properly, training models need to take into account the biomechanical properties of the anatomical structures that will be manipulated in any given operation. This review summarises and evaluates the current biomechanical literature as it relates to human tissues and correlates the impact of this knowledge on developing high fidelity 3D printed surgical training models. We conclude that, currently, a printer technology has not yet been developed which can replicate many of the critical qualities of human tissue. Advances in 3D printing technology will be required to allow the printing of multi-material products to achieve the mechanical properties required.© 2019 Anatomical Society.

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