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Autori principali: Guilherme J.M. Garcia, Dominic Catalano, Axel Shum, Christopher E. Larkee, John S. Rhee
Natura: Artículo Open Access
Pubblicazione: Wiley 2024
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Accesso online:https://aao-hnsfjournals.onlinelibrary.wiley.com/doi/10.1002/ohn.669
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author Guilherme J.M. Garcia
Dominic Catalano
Axel Shum
Christopher E. Larkee
John S. Rhee
author_facet Guilherme J.M. Garcia
Dominic Catalano
Axel Shum
Christopher E. Larkee
John S. Rhee
Guilherme J.M. Garcia
Dominic Catalano
Axel Shum
Christopher E. Larkee
John S. Rhee
collection Wiley Open Access
contents Estimation of Nasal Airway Cross‐sectional Area From Endoscopy Using Depth Maps: A Proof‐of‐Concept Study Guilherme J.M. Garcia Dominic Catalano Axel Shum Christopher E. Larkee John S. Rhee Otolaryngology–Head and Neck Surgery AbstractObjectiveEndoscopy is routinely used to diagnose obstructive airway diseases. Currently, endoscopy is only a visualization technique and does not allow quantification of airspace cross‐sectional areas (CSAs). This pilot study tested the hypothesis that CSAs can be accurately estimated from depth maps created from virtual endoscopy videos.Study DesignCross‐sectional.SettingAcademic tertiary medical center.MethodsVirtual endoscopy and depth map videos of the nasal cavity were digitally created based on anatomically accurate three‐dimensional (3D) models built from computed tomography scans of 30 subjects. A software tool was developed to outline the airway perimeter and estimate the airspace CSA from the depth maps. Two otolaryngologists used the software tool to estimate the nasopharynx CSA and the nasal valve minimal CSA (mCSA) in the left and right nasal cavities. Model validation statistics were performed.ResultsNasopharynx CSA had a median percent error of 3.7% to 4.6% when compared to the true values measured in the 3D models. Nasal valve mCSA had a median percent error of 22.7% to 33.6% relative to the true values. Raters successfully used the software tool to identify subjects with nasal valve stenosis (ie, mCSA < 0.20 cm2) with a sensitivity of 83.3%, specificity ≥ 90.7%, and classification accuracy ≥ 90.0%. Interrater and intrarater agreements were high.ConclusionThis study demonstrates that airway CSAs in 3D models can be accurately estimated from depth maps. The development of artificial intelligence algorithms to compute depth maps may soon allow the quantification of airspace CSAs from clinical endoscopies. 10.1002/ohn.669 http://onlinelibrary.wiley.com/termsAndConditions#vor
doi_str_mv 10.1002/ohn.669
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spellingShingle Estimation of Nasal Airway Cross‐sectional Area From Endoscopy Using Depth Maps: A Proof‐of‐Concept Study
Guilherme J.M. Garcia
Dominic Catalano
Axel Shum
Christopher E. Larkee
John S. Rhee
Otolaryngology–Head and Neck Surgery
Estimation of Nasal Airway Cross‐sectional Area From Endoscopy Using Depth Maps: A Proof‐of‐Concept Study Guilherme J.M. Garcia Dominic Catalano Axel Shum Christopher E. Larkee John S. Rhee Otolaryngology–Head and Neck Surgery AbstractObjectiveEndoscopy is routinely used to diagnose obstructive airway diseases. Currently, endoscopy is only a visualization technique and does not allow quantification of airspace cross‐sectional areas (CSAs). This pilot study tested the hypothesis that CSAs can be accurately estimated from depth maps created from virtual endoscopy videos.Study DesignCross‐sectional.SettingAcademic tertiary medical center.MethodsVirtual endoscopy and depth map videos of the nasal cavity were digitally created based on anatomically accurate three‐dimensional (3D) models built from computed tomography scans of 30 subjects. A software tool was developed to outline the airway perimeter and estimate the airspace CSA from the depth maps. Two otolaryngologists used the software tool to estimate the nasopharynx CSA and the nasal valve minimal CSA (mCSA) in the left and right nasal cavities. Model validation statistics were performed.ResultsNasopharynx CSA had a median percent error of 3.7% to 4.6% when compared to the true values measured in the 3D models. Nasal valve mCSA had a median percent error of 22.7% to 33.6% relative to the true values. Raters successfully used the software tool to identify subjects with nasal valve stenosis (ie, mCSA < 0.20 cm2) with a sensitivity of 83.3%, specificity ≥ 90.7%, and classification accuracy ≥ 90.0%. Interrater and intrarater agreements were high.ConclusionThis study demonstrates that airway CSAs in 3D models can be accurately estimated from depth maps. The development of artificial intelligence algorithms to compute depth maps may soon allow the quantification of airspace CSAs from clinical endoscopies. 10.1002/ohn.669 http://onlinelibrary.wiley.com/termsAndConditions#vor
title Estimation of Nasal Airway Cross‐sectional Area From Endoscopy Using Depth Maps: A Proof‐of‐Concept Study
topic Otolaryngology–Head and Neck Surgery
url https://aao-hnsfjournals.onlinelibrary.wiley.com/doi/10.1002/ohn.669