Augmented real-time navigation with critical structure proximity alerts for endoscopic skull base surgery

Benjamin J Dixon; Michael J Daly; Harley Chan; Allan Vescan; Ian J Witterick; Jonathan C Irish

doi:10.1002/lary.24385

Augmented real-time navigation with critical structure proximity alerts for endoscopic skull base surgery

Laryngoscope. 2014 Apr;124(4):853-9. doi: 10.1002/lary.24385. Epub 2013 Oct 4.

Authors

Benjamin J Dixon¹, Michael J Daly, Harley Chan, Allan Vescan, Ian J Witterick, Jonathan C Irish

Affiliation

¹ Department of Otolaryngology-Head and Neck Surgery, University of Toronto, Melbourne, Australia; Department of Surgery, University of Melbourne, St. Vincent's Hospital and Peter MacCallum Cancer Institute, Melbourne, Australia.

PMID: 24122916
DOI: 10.1002/lary.24385

Abstract

Objectives/hypothesis: Image-guided surgery (IGS) systems are frequently utilized during cranial base surgery to aid in orientation and facilitate targeted surgery. We wished to assess the performance of our recently developed localized intraoperative virtual endoscopy (LIVE)-IGS prototype in a preclinical setting prior to deployment in the operating room. This system combines real-time ablative instrument tracking, critical structure proximity alerts, three-dimensional virtual endoscopic views, and intraoperative cone-beam computed tomographic image updates.

Study design: Randomized-controlled trial plus qualitative analysis.

Methods: Skull base procedures were performed on 14 cadaver specimens by seven fellowship-trained skull base surgeons. Each subject performed two endoscopic transclival approaches; one with LIVE-IGS and one using a conventional IGS system in random order. National Aeronautics and Space Administration Task Load Index (NASA-TLX) scores were documented for each dissection, and a semistructured interview was recorded for qualitative assessment.

Results: The NASA-TLX scores for mental demand, effort, and frustration were significantly reduced with the LIVE-IGS system in comparison to conventional navigation (P < .05). The system interface was judged to be intuitive and most useful when there was a combination of high spatial demand, reduced or absent surface landmarks, and proximity to critical structures. The development of auditory icons for proximity alerts during the trial better informed the surgeon while limiting distraction.

Conclusions: The LIVE-IGS system provided accurate, intuitive, and dynamic feedback to the operating surgeon. Further refinements to proximity alerts and visualization settings will enhance orientation while limiting distraction. The system is currently being deployed in a prospective clinical trial in skull base surgery.

Keywords: Image-guided surgery; endoscopic surgery; pituitary surgery; skull base surgery; surgical navigation; virtual endoscopy.

Publication types

Multicenter Study
Randomized Controlled Trial
Research Support, Non-U.S. Gov't

MeSH terms

Cadaver
Cone-Beam Computed Tomography / methods*
Education, Medical, Continuing / methods*
Endoscopy / education
Endoscopy / methods*
Humans
Imaging, Three-Dimensional
Plastic Surgery Procedures / education
Plastic Surgery Procedures / methods*
Prospective Studies
Reproducibility of Results
Skull Base / surgery*
Surgery, Computer-Assisted / education
Surgery, Computer-Assisted / methods*