3D printing to simulate laparoscopic choledochal surgery

Abstract Aims of the Study Laparoscopic simulation has transformed skills acquisition for many procedures. However, realistic nonbiological simulators for complex reconstructive surgery are rare. Life-like tactile feedback is particularly difficult to reproduce. Technological innovations may contrib...

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Bibliographic Details
Published in:Journal of pediatric surgery 2016-05, Vol.51 (5), p.828-831
Main Authors: Burdall, Oliver C, Makin, Erica, Davenport, Mark, Ade-Ajayi, Niyi
Format: Article
Language:English
Subjects:
3-dimensional printing
Child
Choledochal Cyst - surgery
Choledochal cyst excision
Clinical Competence
Computer Simulation
Female
Humans
Laparoscopy - education
Liver - surgery
Pediatrics
Printing, Three-Dimensional
Surgery
Surgical simulation
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Summary:Abstract Aims of the Study Laparoscopic simulation has transformed skills acquisition for many procedures. However, realistic nonbiological simulators for complex reconstructive surgery are rare. Life-like tactile feedback is particularly difficult to reproduce. Technological innovations may contribute novel solutions to these shortages. We describe a hybrid model, harnessing 3D technology to simulate laparoscopic choledochal surgery for the first time. Methods Digital hepatic anatomy images and standard laparoscopic trainer dimensions were employed to create an entry level laparoscopic choledochal surgery model. The information was fed into a 3D systems project 660pro with visijet pxl core powder to create a free standing liver mold. This included a cuboid portal in which to slot disposable hybrid components representing hepatic and pancreatic ducts and choledochal cyst. The mold was used to create soft silicone replicas with T28 resin and T5 fast catalyst. The model was assessed at a national pediatric surgery training day. Results The 10 delegates that trialed the simulation felt that the tactile likeness was good (5.6/10 ± 1.71, 10 = like the real thing), was not too complex (6.2/10 ± 1.35; where 1 = too simple, 10 = too complicated), and generally very useful (7.36/10 ± 1.57, 10 = invaluable). 100% stated that they felt they could reproduce this in their own centers, and 100% would recommend this simulation to colleagues. Conclusion Though this first phase choledochal cyst excision simulation requires further development, 3D printing provides a useful means of creating specific and detailed simulations for rare and complex operations with huge potential for development.
ISSN:0022-3468
1531-5037
DOI:10.1016/j.jpedsurg.2016.02.093