Patient-specific neurosurgical phantom: assessment of visual quality, accuracy, and scaling effects
Abstract Background Training in medical education depends on the availability of standardized materials that can reliably mimic the human anatomy and physiology. One alternative to using cadavers or animal bodies is to employ phantoms or mimicking devices. Styrene-ethylene/butylene-styrene (SEBS) ge...
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doaj-378068dd2ab14eebbd1b34a61f8d1b102020-11-24T22:01:15ZengBMC3D Printing in Medicine2365-62712018-03-01411910.1186/s41205-018-0025-8Patient-specific neurosurgical phantom: assessment of visual quality, accuracy, and scaling effectsFelipe Wilker Grillo0Victor Hugo Souza1Renan Hiroshi Matsuda2Carlo Rondinoni3Theo Zeferino Pavan4Oswaldo Baffa5Helio Rubens Machado6Antonio Adilton Oliveira Carneiro7Department of Physics, Faculty of Philosophy, Science and Letters at Ribeirao Preto, University of Sao PauloDepartment of Physics, Faculty of Philosophy, Science and Letters at Ribeirao Preto, University of Sao PauloDepartment of Physics, Faculty of Philosophy, Science and Letters at Ribeirao Preto, University of Sao PauloDepartment of Physics, Faculty of Philosophy, Science and Letters at Ribeirao Preto, University of Sao PauloDepartment of Physics, Faculty of Philosophy, Science and Letters at Ribeirao Preto, University of Sao PauloDepartment of Physics, Faculty of Philosophy, Science and Letters at Ribeirao Preto, University of Sao PauloDepartment of Surgery and Anatomy, Faculty of Medicine at Ribeirao Preto, University of Sao PauloDepartment of Physics, Faculty of Philosophy, Science and Letters at Ribeirao Preto, University of Sao PauloAbstract Background Training in medical education depends on the availability of standardized materials that can reliably mimic the human anatomy and physiology. One alternative to using cadavers or animal bodies is to employ phantoms or mimicking devices. Styrene-ethylene/butylene-styrene (SEBS) gels are biologically inert and present tunable properties, including mechanical properties that resemble the soft tissue. Therefore, SEBS is an alternative to develop a patient-specific phantom, that provides real visual and morphological experience during simulation-based neurosurgical training. Results A 3D model was reconstructed and printed based on patient-specific magnetic resonance images. The fused deposition of polyactic acid (PLA) filament and selective laser sintering of polyamid were used for 3D printing. Silicone and SEBS materials were employed to mimic soft tissues. A neuronavigation protocol was performed on the 3D-printed models scaled to three different sizes, 100%, 50%, and 25% of the original dimensions. A neurosurgery team (17 individuals) evaluated the phantom realism as “very good” and “perfect” in 49% and 31% of the cases, respectively, and rated phantom utility as “very good” and “perfect” in 61% and 32% of the cases, respectively. Models in original size (100%) and scaled to 50% provided a quantitative and realistic visual analysis of the patient’s cortical anatomy without distortion. However, reduction to one quarter of the original size (25%) hindered visualization of surface details and identification of anatomical landmarks. Conclusions A patient-specific phantom was developed with anatomically and spatially accurate shapes, that can be used as an alternative for surgical planning. Printed models scaled to sizes that avoided quality loss might save time and reduce medical training costs.http://link.springer.com/article/10.1186/s41205-018-0025-8NeurosurgeryEducationMedical trainingPatient-specificNeuronavigationPhantom |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
Felipe Wilker Grillo Victor Hugo Souza Renan Hiroshi Matsuda Carlo Rondinoni Theo Zeferino Pavan Oswaldo Baffa Helio Rubens Machado Antonio Adilton Oliveira Carneiro |
spellingShingle |
Felipe Wilker Grillo Victor Hugo Souza Renan Hiroshi Matsuda Carlo Rondinoni Theo Zeferino Pavan Oswaldo Baffa Helio Rubens Machado Antonio Adilton Oliveira Carneiro Patient-specific neurosurgical phantom: assessment of visual quality, accuracy, and scaling effects 3D Printing in Medicine Neurosurgery Education Medical training Patient-specific Neuronavigation Phantom |
author_facet |
Felipe Wilker Grillo Victor Hugo Souza Renan Hiroshi Matsuda Carlo Rondinoni Theo Zeferino Pavan Oswaldo Baffa Helio Rubens Machado Antonio Adilton Oliveira Carneiro |
author_sort |
Felipe Wilker Grillo |
title |
Patient-specific neurosurgical phantom: assessment of visual quality, accuracy, and scaling effects |
title_short |
Patient-specific neurosurgical phantom: assessment of visual quality, accuracy, and scaling effects |
title_full |
Patient-specific neurosurgical phantom: assessment of visual quality, accuracy, and scaling effects |
title_fullStr |
Patient-specific neurosurgical phantom: assessment of visual quality, accuracy, and scaling effects |
title_full_unstemmed |
Patient-specific neurosurgical phantom: assessment of visual quality, accuracy, and scaling effects |
title_sort |
patient-specific neurosurgical phantom: assessment of visual quality, accuracy, and scaling effects |
publisher |
BMC |
series |
3D Printing in Medicine |
issn |
2365-6271 |
publishDate |
2018-03-01 |
description |
Abstract Background Training in medical education depends on the availability of standardized materials that can reliably mimic the human anatomy and physiology. One alternative to using cadavers or animal bodies is to employ phantoms or mimicking devices. Styrene-ethylene/butylene-styrene (SEBS) gels are biologically inert and present tunable properties, including mechanical properties that resemble the soft tissue. Therefore, SEBS is an alternative to develop a patient-specific phantom, that provides real visual and morphological experience during simulation-based neurosurgical training. Results A 3D model was reconstructed and printed based on patient-specific magnetic resonance images. The fused deposition of polyactic acid (PLA) filament and selective laser sintering of polyamid were used for 3D printing. Silicone and SEBS materials were employed to mimic soft tissues. A neuronavigation protocol was performed on the 3D-printed models scaled to three different sizes, 100%, 50%, and 25% of the original dimensions. A neurosurgery team (17 individuals) evaluated the phantom realism as “very good” and “perfect” in 49% and 31% of the cases, respectively, and rated phantom utility as “very good” and “perfect” in 61% and 32% of the cases, respectively. Models in original size (100%) and scaled to 50% provided a quantitative and realistic visual analysis of the patient’s cortical anatomy without distortion. However, reduction to one quarter of the original size (25%) hindered visualization of surface details and identification of anatomical landmarks. Conclusions A patient-specific phantom was developed with anatomically and spatially accurate shapes, that can be used as an alternative for surgical planning. Printed models scaled to sizes that avoided quality loss might save time and reduce medical training costs. |
topic |
Neurosurgery Education Medical training Patient-specific Neuronavigation Phantom |
url |
http://link.springer.com/article/10.1186/s41205-018-0025-8 |
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