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Augmented Reality and Intraoperative Navigation in Sinonasal Malignancies: A Preclinical Study

Axel Sahovaler, Harley Chan, Tommaso Gualtieri, Michael J. Daly, Marco Ferrari, Claire Vannelli, Donovan Eu, Mirko Manojlovic‐Kolarski, Susannah Orzell, Stefano Taboni, John R. de Almeida, David P. Goldstein, Alberto Deganello, Piero Nicolai, Ralph Gilbert, Jonathan C. Irish

2021Frontiers in Oncology25 citationsDOIOpen Access PDF

Abstract

OBJECTIVE: To report the first use of a novel projected augmented reality (AR) system in open sinonasal tumor resections in preclinical models and to compare the AR approach with an advanced intraoperative navigation (IN) system. METHODS: Four tumor models were created. Five head and neck surgeons participated in the study performing virtual osteotomies. Unguided, AR, IN, and AR + IN simulations were performed. Statistical comparisons between approaches were obtained. Intratumoral cut rate was the main outcome. The groups were also compared in terms of percentage of intratumoral, close, adequate, and excessive distances from the tumor. Information on a wearable gaze tracker headset and NASA Task Load Index questionnaire results were analyzed as well. RESULTS: A total of 335 cuts were simulated. Intratumoral cuts were observed in 20.7%, 9.4%, 1.2,% and 0% of the unguided, AR, IN, and AR + IN simulations, respectively (p < 0.0001). The AR was superior than the unguided approach in univariate and multivariate models. The percentage of time looking at the screen during the procedures was 55.5% for the unguided approaches and 0%, 78.5%, and 61.8% in AR, IN, and AR + IN, respectively (p < 0.001). The combined approach significantly reduced the screen time compared with the IN procedure alone. CONCLUSION: We reported the use of a novel AR system for oncological resections in open sinonasal approaches, with improved margin delineation compared with unguided techniques. AR improved the gaze-toggling drawback of IN. Further refinements of the AR system are needed before translating our experience to clinical practice.

Topics & Concepts

Augmented realityMedicineSurgeryMedical physicsComputer scienceArtificial intelligenceAugmented Reality ApplicationsHead and Neck Surgical OncologySurgical Simulation and Training