Registration using 3D-printed rigid templates outperforms manually scanned surface matching in image-guided temporal bone surgery

Yamashita, Makoto; Matsumoto, Nozomu; Cho, Byunghyun; Komune, Noritaka; Onogi, Shinya; Lee, Jongseung; Bano, Jordan; Akahoshi, Tomohiko; Hashizume, Makoto

doi:10.1007/s11548-016-1441-0

Cited by 6 publications

(1 citation statement)

References 29 publications

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“…Four papers dealt with the creation of 3DP operative templates to assist surgical positioning of a transcutaneous bone-conduction hearing device 39-42 . Finally, six studies were on the combined use of surgical navigation and 3DP technology 43-48 . In particular, a Japanese publication described the development of a registration method based on bone-anchored fiducial markers using 3DP templates without requiring a preoperative invasive marking process or additional CT.…”

Section: Resultsmentioning

confidence: 99%

New frontiers and emerging applications of 3D printing in ENT surgery: a systematic review of the literature

Canzi

Magnetto

Marconi

et al. 2018

Acta Otorhinolaryngol Ital

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Section: Resultsmentioning

confidence: 99%

New frontiers and emerging applications of 3D printing in ENT surgery: a systematic review of the literature

Canzi

Magnetto

Marconi

et al. 2018

Acta Otorhinolaryngol Ital

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Asymmetrical surface scanning registration for image-guided otologic surgery: A phantom study

et al. 2020

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Noninvasive Registration Strategies and Advanced Image Guidance Technology for Submillimeter Surgical Navigation Accuracy in the Lateral Skull Base

Schneider

Hermann

Gerber

et al. 2018

Otology &Amp; Neurotology

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Hypothesis: Combining novel registration strategies and advanced image guidance technology enable submillimeter accurate and noninvasive navigation for middle ear and lateral skull base surgery. Background: Surgery in the internal auditory canal and the petrous apex present a cognitive and motoric challenge for the surgeon. To date, image guidance rarely assists these procedures, mainly due to the lack of navigation solutions providing submillimeter accuracy associated with low cost in terms of invasiveness, radiation, and time. Methods: This study proposes an approach to clinically viable image guidance by using a combination of advanced image guidance technology and noninvasive registration strategies. Based on accuracy-optimized optical tracking hardware (accuracy: 0.05 ± 0.025 mm), 14 novel registration strategies were investigated. In human cadaveric temporal bone specimens n = 36 registration attempts per strategy were conducted. Target registration errors at 10 anatomical targets were measured. Results: The most accurate registration strategies were identified as paired-point-matching using eight landmarks located in the external auditory canal and middle ear and surface matching using combined surfaces of the middle ear, the external auditory canal and the mastoid cortex yielding target registration errors of 0.51 ± 0.28 mm and 0.36 ± 0.13 mm respectively. Conclusions: This study demonstrates submillimeter TREs achieved with noninvasive, anatomy-based registration strategies in combination with advanced image guidance technology. Clinically viable LSB and ME navigation is realized without additional invasiveness, radiation and time associated with artificial fiducials. The appropriate registration strategy can be chosen by the surgeon depending on the pathology and surgical approach.

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Registration using 3D-printed rigid templates outperforms manually scanned surface matching in image-guided temporal bone surgery

Cited by 6 publications

References 29 publications

New frontiers and emerging applications of 3D printing in ENT surgery: a systematic review of the literature

New frontiers and emerging applications of 3D printing in ENT surgery: a systematic review of the literature

Asymmetrical surface scanning registration for image-guided otologic surgery: A phantom study

Noninvasive Registration Strategies and Advanced Image Guidance Technology for Submillimeter Surgical Navigation Accuracy in the Lateral Skull Base

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