Deep Learning Applied to White Light and Narrow Band Imaging Videolaryngoscopy: Toward Real‐Time Laryngeal Cancer Detection

OBJECTIVES: To assess a new application of artificial intelligence for real‐time detection of laryngeal squamous cell carcinoma (LSCC) in both white light (WL) and narrow‐band imaging (NBI) videolaryngoscopies based on the You‐Only‐Look‐Once (YOLO) deep learning convolutional neural network (CNN). S...

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Autores principales: Azam, Muhammad Adeel, Sampieri, Claudio, Ioppi, Alessandro, Africano, Stefano, Vallin, Alberto, Mocellin, Davide, Fragale, Marco, Guastini, Luca, Moccia, Sara, Piazza, Cesare, Mattos, Leonardo S., Peretti, Giorgio
Formato: Online Artículo Texto
Lenguaje:English
Publicado: John Wiley & Sons, Inc. 2021
Materias:
Laryngology
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9544863/
https://www.ncbi.nlm.nih.gov/pubmed/34821396
http://dx.doi.org/10.1002/lary.29960
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author Azam, Muhammad Adeel
Sampieri, Claudio
Ioppi, Alessandro
Africano, Stefano
Vallin, Alberto
Mocellin, Davide
Fragale, Marco
Guastini, Luca
Moccia, Sara
Piazza, Cesare
Mattos, Leonardo S.
Peretti, Giorgio
author_facet Azam, Muhammad Adeel
Sampieri, Claudio
Ioppi, Alessandro
Africano, Stefano
Vallin, Alberto
Mocellin, Davide
Fragale, Marco
Guastini, Luca
Moccia, Sara
Piazza, Cesare
Mattos, Leonardo S.
Peretti, Giorgio
author_sort Azam, Muhammad Adeel
collection PubMed
description OBJECTIVES: To assess a new application of artificial intelligence for real‐time detection of laryngeal squamous cell carcinoma (LSCC) in both white light (WL) and narrow‐band imaging (NBI) videolaryngoscopies based on the You‐Only‐Look‐Once (YOLO) deep learning convolutional neural network (CNN). STUDY DESIGN: Experimental study with retrospective data. METHODS: Recorded videos of LSCC were retrospectively collected from in‐office transnasal videoendoscopies and intraoperative rigid endoscopies. LSCC videoframes were extracted for training, validation, and testing of various YOLO models. Different techniques were used to enhance the image analysis: contrast limited adaptive histogram equalization, data augmentation techniques, and test time augmentation (TTA). The best‐performing model was used to assess the automatic detection of LSCC in six videolaryngoscopies. RESULTS: Two hundred and nineteen patients were retrospectively enrolled. A total of 624 LSCC videoframes were extracted. The YOLO models were trained after random distribution of images into a training set (82.6%), validation set (8.2%), and testing set (9.2%). Among the various models, the ensemble algorithm (YOLOv5s with YOLOv5m—TTA) achieved the best LSCC detection results, with performance metrics in par with the results reported by other state‐of‐the‐art detection models: 0.66 Precision (positive predicted value), 0.62 Recall (sensitivity), and 0.63 mean Average Precision at 0.5 intersection over union. Tests on the six videolaryngoscopies demonstrated an average computation time per videoframe of 0.026 seconds. Three demonstration videos are provided. CONCLUSION: This study identified a suitable CNN model for LSCC detection in WL and NBI videolaryngoscopies. Detection performances are highly promising. The limited complexity and quick computational times for LSCC detection make this model ideal for real‐time processing. LEVEL OF EVIDENCE: 3 Laryngoscope, 132:1798–1806, 2022
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spelling pubmed-95448632022-10-14 Deep Learning Applied to White Light and Narrow Band Imaging Videolaryngoscopy: Toward Real‐Time Laryngeal Cancer Detection Azam, Muhammad Adeel Sampieri, Claudio Ioppi, Alessandro Africano, Stefano Vallin, Alberto Mocellin, Davide Fragale, Marco Guastini, Luca Moccia, Sara Piazza, Cesare Mattos, Leonardo S. Peretti, Giorgio Laryngoscope Laryngology OBJECTIVES: To assess a new application of artificial intelligence for real‐time detection of laryngeal squamous cell carcinoma (LSCC) in both white light (WL) and narrow‐band imaging (NBI) videolaryngoscopies based on the You‐Only‐Look‐Once (YOLO) deep learning convolutional neural network (CNN). STUDY DESIGN: Experimental study with retrospective data. METHODS: Recorded videos of LSCC were retrospectively collected from in‐office transnasal videoendoscopies and intraoperative rigid endoscopies. LSCC videoframes were extracted for training, validation, and testing of various YOLO models. Different techniques were used to enhance the image analysis: contrast limited adaptive histogram equalization, data augmentation techniques, and test time augmentation (TTA). The best‐performing model was used to assess the automatic detection of LSCC in six videolaryngoscopies. RESULTS: Two hundred and nineteen patients were retrospectively enrolled. A total of 624 LSCC videoframes were extracted. The YOLO models were trained after random distribution of images into a training set (82.6%), validation set (8.2%), and testing set (9.2%). Among the various models, the ensemble algorithm (YOLOv5s with YOLOv5m—TTA) achieved the best LSCC detection results, with performance metrics in par with the results reported by other state‐of‐the‐art detection models: 0.66 Precision (positive predicted value), 0.62 Recall (sensitivity), and 0.63 mean Average Precision at 0.5 intersection over union. Tests on the six videolaryngoscopies demonstrated an average computation time per videoframe of 0.026 seconds. Three demonstration videos are provided. CONCLUSION: This study identified a suitable CNN model for LSCC detection in WL and NBI videolaryngoscopies. Detection performances are highly promising. The limited complexity and quick computational times for LSCC detection make this model ideal for real‐time processing. LEVEL OF EVIDENCE: 3 Laryngoscope, 132:1798–1806, 2022 John Wiley & Sons, Inc. 2021-11-25 2022-09 /pmc/articles/PMC9544863/ /pubmed/34821396 http://dx.doi.org/10.1002/lary.29960 Text en © 2021 The Authors. The Laryngoscope published by Wiley Periodicals LLC on behalf of The American Laryngological, Rhinological and Otological Society, Inc. https://creativecommons.org/licenses/by-nc-nd/4.0/This is an open access article under the terms of the http://creativecommons.org/licenses/by-nc-nd/4.0/ (https://creativecommons.org/licenses/by-nc-nd/4.0/) License, which permits use and distribution in any medium, provided the original work is properly cited, the use is non‐commercial and no modifications or adaptations are made.
spellingShingle Laryngology
Azam, Muhammad Adeel
Sampieri, Claudio
Ioppi, Alessandro
Africano, Stefano
Vallin, Alberto
Mocellin, Davide
Fragale, Marco
Guastini, Luca
Moccia, Sara
Piazza, Cesare
Mattos, Leonardo S.
Peretti, Giorgio
Deep Learning Applied to White Light and Narrow Band Imaging Videolaryngoscopy: Toward Real‐Time Laryngeal Cancer Detection
title Deep Learning Applied to White Light and Narrow Band Imaging Videolaryngoscopy: Toward Real‐Time Laryngeal Cancer Detection
title_full Deep Learning Applied to White Light and Narrow Band Imaging Videolaryngoscopy: Toward Real‐Time Laryngeal Cancer Detection
title_fullStr Deep Learning Applied to White Light and Narrow Band Imaging Videolaryngoscopy: Toward Real‐Time Laryngeal Cancer Detection
title_full_unstemmed Deep Learning Applied to White Light and Narrow Band Imaging Videolaryngoscopy: Toward Real‐Time Laryngeal Cancer Detection
title_short Deep Learning Applied to White Light and Narrow Band Imaging Videolaryngoscopy: Toward Real‐Time Laryngeal Cancer Detection
title_sort deep learning applied to white light and narrow band imaging videolaryngoscopy: toward real‐time laryngeal cancer detection
topic Laryngology
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9544863/
https://www.ncbi.nlm.nih.gov/pubmed/34821396
http://dx.doi.org/10.1002/lary.29960
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