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- Nirmeen Zagzoog, Siavash Rastgarjazi, Joel Ramjist, Justin Lui, Adam Hopfgartner, Jamil Jivraj, Tiffany Yeretsian, Gelareh Zadeh, Vincent Lin, and YangVictor X DVXDBrain Sciences Program/Imaging Research, Sunnybrook Research Institute, Sunnybrook Health Sciences Centre, Toronto, Ontario, Canada; Bioengineering and Biophotonics Laboratory, Ryerson University, Toronto, Ontario, Canada; Division of Neu.
- Institute of Medical Science, School of Graduate Studies, Faculty of Medicine, Toronto, Ontario, Canada; Brain Sciences Program/Imaging Research, Sunnybrook Research Institute, Sunnybrook Health Sciences Centre, Toronto, Ontario, Canada; Division of Neurosurgery, Department of Surgery, McMaster University, Hamilton, Ontario, Canada; Bioengineering and Biophotonics Laboratory, Ryerson University, Toronto, Ontario, Canada. Electronic address: nirmeen.zagzoog@mail.utoronto.ca.
- World Neurosurg. 2022 Oct 1; 166: e790e798e790-e798.
BackgroundMastoidectomy involves drilling the temporal bone while avoiding the facial nerve, semicircular canals, sigmoid sinus, and tegmen. Optical topographic imaging (OTI) is a novel registration technique that allows rapid registration with minimal navigational error. To date, no studies have examined the use of OTI in skull-base procedures.MethodsIn this cadaveric study, 8 mastoidectomies were performed in 2 groups-4 free-hand (FH) and 4 OTI-assisted mastoidectomies. Registration accuracy for OTI navigation was quantified with root mean square (RMS) and target registration error (TRE). Procedural time, percent of mastoid resected, and the proximity of the mastoidectomy cavity to critical structures were determined.ResultsThe average RMS and TRE associated with OTI-based registration were 1.44 mm (±0.83 mm) and 2.17 mm (±0.89 mm), respectively. The volume removed, expressed as a percentage of the total mastoid volume, was 37.5% (±10.2%) versus 31.2% (±2.3%), P = 0.31, for FH and OTI-assisted mastoidectomy. There were no statistically significant differences between FH and OTI-assisted mastoidectomies with respect to proximity to critical structures or procedural time.ConclusionsThis work is the first examining the application of OTI neuronavigation in lateral skull-base procedures. This pilot study revealed the RMS and TRE for OTI-based navigation in the lateral skull base are 1.44 mm (±0.83 mm) and 2.17 mm (±0.89 mm), respectively. This pilot study demonstrates that an OTI-based system is sufficiently accurate and may address barriers to widespread adoption of navigation for lateral skull-base procedures.Copyright © 2022 Elsevier Inc. All rights reserved.
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