Konrad Hoetzenecker1, Harley H L Chan2, Florian Frommlet3, Thomas Schweiger4, Shaf Keshavjee5, Thomas K Waddell5, Walter Klepetko4, Jonathan C Irish6, Kazuhiro Yasufuku5. 1. Division of Thoracic Surgery, Medical University of Vienna, Vienna, Austria. Electronic address: konrad.hoetzenecker@meduniwien.ac.at. 2. Guided Therapeutics Program, TECHNA Institute, University Health Network, Toronto, Ontario, Canada. 3. Department of Medical Statistics (CEMSIIS), Medical University of Vienna, Vienna, Austria. 4. Division of Thoracic Surgery, Medical University of Vienna, Vienna, Austria. 5. Division of Thoracic Surgery, University of Toronto, Toronto, Ontario, Canada. 6. Department of Otolaryngology-Head and Neck Surgery, University of Toronto, Toronto, Ontario, Canada.
Abstract
PURPOSE: Preoperative assessment of benign subglottic stenosis is usually performed by endoscopy and a computed tomography scan. Both diagnostic modalities have relevant limitations and sometimes an accurate assessment of the extent of disease is challenging. DESCRIPTION: Based on computed tomography scans of benign glotto-subglottic stenosis and a control airway, color-coded three-dimensional (3D) models were produced using a commercially available 3D printer. The diagnostic relevance of 3D models was tested by means of a quiz. EVALUATION: 52 thoracic surgeons from 4 North American and 1 European institution with different levels of experience in airway surgery were invited to test the diagnostic accuracy of 3D models against endoscopy films and computed tomography scans. 3D models were found to be superior to the other two diagnostic tools in terms of grading the extent of the stenosis and selecting the correct surgical strategy. The group of residents benefited the most from the 3D models. CONCLUSIONS: 3D models of complex glotto-subglottic airway stenosis are a useful supplement of the preoperative assessment. In addition, they can serve as a teaching tool for residents and fellows.
PURPOSE: Preoperative assessment of benign subglottic stenosis is usually performed by endoscopy and a computed tomography scan. Both diagnostic modalities have relevant limitations and sometimes an accurate assessment of the extent of disease is challenging. DESCRIPTION: Based on computed tomography scans of benign glotto-subglottic stenosis and a control airway, color-coded three-dimensional (3D) models were produced using a commercially available 3D printer. The diagnostic relevance of 3D models was tested by means of a quiz. EVALUATION: 52 thoracic surgeons from 4 North American and 1 European institution with different levels of experience in airway surgery were invited to test the diagnostic accuracy of 3D models against endoscopy films and computed tomography scans. 3D models were found to be superior to the other two diagnostic tools in terms of grading the extent of the stenosis and selecting the correct surgical strategy. The group of residents benefited the most from the 3D models. CONCLUSIONS: 3D models of complex glotto-subglottic airway stenosis are a useful supplement of the preoperative assessment. In addition, they can serve as a teaching tool for residents and fellows.