3D-printed paediatric temporal bones as an alternative tool for otological training
3D-printed paediatric temporal bones as an alternative tool for otological training
Objectives:
Temporal bone dissection is an essential part of otological surgical training. Ethical reasons prevent the use of cadaveric paediatric temporal bones and diseased temporal bones harbour different anatomiy to most models or healthy specimens. Ideal preoperative preparation should allow the surgeon to undertake the actual operative procedure in a simulated manner. The use of 3D printed models based on high resolution computed tomography (HRCT) scans has already being trialled for adults, but may be of greater benefit for paediatric cases.
Methods:
Non-identifiable HRCT scans of paediatric temporal bones were segmented and converted into surface representations using open source software and self-made algorithms. Several 3D prints of paediatric temporal bones were created, mounted in modelling clay and drilled by ENT surgeons using an electric drill.
Results:
3D printing of paediatric temporal bones has proved both economical and anatomically faithful. Use of HRCT scans allow specific cases to be selected for printing. The 3D printed models enabled cortical mastoidectomy to be undertaken but lacked sufficient resolution of the inner ear and facial nerve. With a price of £16, the cost of the bones is much lower than that of traditional plastic cast models.
Conclusion:
Further anatomical delineation of 3D printed temporal bones from HRCT images will provide the opportunity for improved paediatric temporal bone surgical training. It will also provide preoperative simulation opportunities in cases with challenging anatomy. Selection of appropriate materials potentially offers improved haptics. Further research in alternative segmentation and additive manufacturing methods will lead to improved temporal bone models.
Wollatz, Lasse
7a2e3e37-13e6-47ec-aed8-33078db4c3ff
Frampton, Steven
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Konieczny, Kasia
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Mitchell, Tim
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Johnston, Steven J.
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Cox, Simon J.
0e62aaed-24ad-4a74-b996-f606e40e5c55
Burgess, Andrea
5f0c861d-1a20-4afa-b1e2-156c175dcadd
Ismail-Koch, Hasnaa Ismail
0c563edc-2338-4367-a880-284b47fda04a
26 June 2018
Wollatz, Lasse
7a2e3e37-13e6-47ec-aed8-33078db4c3ff
Frampton, Steven
7c956e4f-0de7-48ee-9bb6-466d554c5813
Konieczny, Kasia
85c4409f-87dc-496d-8b5a-bd880cc1228d
Mitchell, Tim
125f5e0f-500f-4ac2-8c54-9273c8f11cde
Johnston, Steven J.
6b903ec2-7bae-4a56-9c21-eea0a70bfa2b
Cox, Simon J.
0e62aaed-24ad-4a74-b996-f606e40e5c55
Burgess, Andrea
5f0c861d-1a20-4afa-b1e2-156c175dcadd
Ismail-Koch, Hasnaa Ismail
0c563edc-2338-4367-a880-284b47fda04a
Wollatz, Lasse, Frampton, Steven, Konieczny, Kasia, Mitchell, Tim, Johnston, Steven J., Cox, Simon J., Burgess, Andrea and Ismail-Koch, Hasnaa Ismail
(2018)
3D-printed paediatric temporal bones as an alternative tool for otological training.
14th Congress of the European Society of Pediatric Otorhinolaryngology, Stockholm Waterfront Congress Centre, Stockholm, Sweden.
02 - 05 Jun 2018.
1 pp
.
Record type:
Conference or Workshop Item
(Poster)
Abstract
Objectives:
Temporal bone dissection is an essential part of otological surgical training. Ethical reasons prevent the use of cadaveric paediatric temporal bones and diseased temporal bones harbour different anatomiy to most models or healthy specimens. Ideal preoperative preparation should allow the surgeon to undertake the actual operative procedure in a simulated manner. The use of 3D printed models based on high resolution computed tomography (HRCT) scans has already being trialled for adults, but may be of greater benefit for paediatric cases.
Methods:
Non-identifiable HRCT scans of paediatric temporal bones were segmented and converted into surface representations using open source software and self-made algorithms. Several 3D prints of paediatric temporal bones were created, mounted in modelling clay and drilled by ENT surgeons using an electric drill.
Results:
3D printing of paediatric temporal bones has proved both economical and anatomically faithful. Use of HRCT scans allow specific cases to be selected for printing. The 3D printed models enabled cortical mastoidectomy to be undertaken but lacked sufficient resolution of the inner ear and facial nerve. With a price of £16, the cost of the bones is much lower than that of traditional plastic cast models.
Conclusion:
Further anatomical delineation of 3D printed temporal bones from HRCT images will provide the opportunity for improved paediatric temporal bone surgical training. It will also provide preoperative simulation opportunities in cases with challenging anatomy. Selection of appropriate materials potentially offers improved haptics. Further research in alternative segmentation and additive manufacturing methods will lead to improved temporal bone models.
Text
Poster_ESPO2018_3DPrintedPaediatricTemporalBonesAsAnAlternativeToolForOtologicalTraining.pdf
- Accepted Manuscript
More information
Accepted/In Press date: 24 March 2018
Published date: 26 June 2018
Venue - Dates:
14th Congress of the European Society of Pediatric Otorhinolaryngology, Stockholm Waterfront Congress Centre, Stockholm, Sweden, 2018-06-02 - 2018-06-05
Identifiers
Local EPrints ID: 420214
URI: http://eprints.soton.ac.uk/id/eprint/420214
PURE UUID: 3a658932-e097-4e39-a51a-44e0e6bc303d
Catalogue record
Date deposited: 02 May 2018 16:30
Last modified: 15 Mar 2024 19:31
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Contributors
Author:
Lasse Wollatz
Author:
Steven Frampton
Author:
Kasia Konieczny
Author:
Tim Mitchell
Author:
Andrea Burgess
Author:
Hasnaa Ismail Ismail-Koch
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