OBJECTIVE: Temporal bone dissection is a fundamental element of otologic training. Cadaveric temporal bones (CTB) are the gold standard surgical training model; however, many institutions do not have ready access to them and their cost can be significant: $300 to $500. Furthermore, pediatric cadaveric temporal bones are not readily available. Our objective is to develop a pediatric temporal bone model. STUDY DESIGN: Temporal bone model. SETTING: Tertiary Children's Hospital. SUBJECTS: Pediatric patient model. METHODS: We describe the novel use of a 3D printer for the generation of a plaster training model from a pediatric high- resolution CT temporal bone scan of a normal pediatric temporal bone. RESULTS: Three models were produced and were evaluated. The models utilized multiple colors (white for bone, yellow for the facial nerve) and were of high quality. Two models were drilled as a proof of concept and found to be an acceptable facsimile of the patient's anatomy, rendering all necessary surgical landmarks accurately. The only negative comments pertaining to the 3D printed temporal bone as a training model were the lack of variation in hardness between cortical and cancellous bone, noting a tactile variation from cadaveric temporal bones. CONCLUSION: Our novel pediatric 3D temporal bone training model is a viable, low-cost training option for previously inaccessible pediatric temporal bone training. Our hope is that, as 3D printers become commonplace, these models could be rapidly reproduced, allowing for trainees to print models of patients before performing surgery on the living patient.
OBJECTIVE: Temporal bone dissection is a fundamental element of otologic training. Cadaveric temporal bones (CTB) are the gold standard surgical training model; however, many institutions do not have ready access to them and their cost can be significant: $300 to $500. Furthermore, pediatric cadaveric temporal bones are not readily available. Our objective is to develop a pediatric temporal bone model. STUDY DESIGN: Temporal bone model. SETTING: Tertiary Children's Hospital. SUBJECTS: Pediatric patient model. METHODS: We describe the novel use of a 3D printer for the generation of a plaster training model from a pediatric high- resolution CT temporal bone scan of a normal pediatric temporal bone. RESULTS: Three models were produced and were evaluated. The models utilized multiple colors (white for bone, yellow for the facial nerve) and were of high quality. Two models were drilled as a proof of concept and found to be an acceptable facsimile of the patient's anatomy, rendering all necessary surgical landmarks accurately. The only negative comments pertaining to the 3D printed temporal bone as a training model were the lack of variation in hardness between cortical and cancellous bone, noting a tactile variation from cadaveric temporal bones. CONCLUSION: Our novel pediatric 3D temporal bone training model is a viable, low-cost training option for previously inaccessible pediatric temporal bone training. Our hope is that, as 3D printers become commonplace, these models could be rapidly reproduced, allowing for trainees to print models of patients before performing surgery on the living patient.
Authors: P Canzi; S Marconi; M Manfrin; M Magnetto; C Carelli; A M Simoncelli; D Fresa; M Beltrame; F Auricchio; M Benazzo Journal: Acta Otorhinolaryngol Ital Date: 2018-06 Impact factor: 2.124
Authors: P Canzi; M Magnetto; S Marconi; P Morbini; S Mauramati; F Aprile; I Avato; F Auricchio; M Benazzo Journal: Acta Otorhinolaryngol Ital Date: 2018-08 Impact factor: 2.124
Authors: Georges E Daoud; Dante L Pezzutti; Calvin J Dolatowski; Ricardo L Carrau; Mary Pancake; Edward Herderick; Kyle K VanKoevering Journal: J Mater Res Date: 2021-07-06 Impact factor: 3.089