Automatic classification of pediatric pneumonia based on lung ultrasound pattern recognition

Pneumonia is one of the major causes of child mortality, yet with a timely diagnosis, it is usually curable with antibiotic therapy. In many developing regions, diagnosing pneumonia remains a challenge, due to shortages of medical resources. Lung ultrasound has proved to be a useful tool to detect l...

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Autores principales: Correa, Malena, Zimic, Mirko, Barrientos, Franklin, Barrientos, Ronald, Román-Gonzalez, Avid, Pajuelo, Mónica J., Anticona, Cynthia, Mayta, Holger, Alva, Alicia, Solis-Vasquez, Leonardo, Figueroa, Dante Anibal, Chavez, Miguel A., Lavarello, Roberto, Castañeda, Benjamín, Paz-Soldán, Valerie A., Checkley, William, Gilman, Robert H., Oberhelman, Richard
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2018
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6281243/
https://www.ncbi.nlm.nih.gov/pubmed/30517102
http://dx.doi.org/10.1371/journal.pone.0206410
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author Correa, Malena
Zimic, Mirko
Barrientos, Franklin
Barrientos, Ronald
Román-Gonzalez, Avid
Pajuelo, Mónica J.
Anticona, Cynthia
Mayta, Holger
Alva, Alicia
Solis-Vasquez, Leonardo
Figueroa, Dante Anibal
Chavez, Miguel A.
Lavarello, Roberto
Castañeda, Benjamín
Paz-Soldán, Valerie A.
Checkley, William
Gilman, Robert H.
Oberhelman, Richard
author_facet Correa, Malena
Zimic, Mirko
Barrientos, Franklin
Barrientos, Ronald
Román-Gonzalez, Avid
Pajuelo, Mónica J.
Anticona, Cynthia
Mayta, Holger
Alva, Alicia
Solis-Vasquez, Leonardo
Figueroa, Dante Anibal
Chavez, Miguel A.
Lavarello, Roberto
Castañeda, Benjamín
Paz-Soldán, Valerie A.
Checkley, William
Gilman, Robert H.
Oberhelman, Richard
author_sort Correa, Malena
collection PubMed
description Pneumonia is one of the major causes of child mortality, yet with a timely diagnosis, it is usually curable with antibiotic therapy. In many developing regions, diagnosing pneumonia remains a challenge, due to shortages of medical resources. Lung ultrasound has proved to be a useful tool to detect lung consolidation as evidence of pneumonia. However, diagnosis of pneumonia by ultrasound has limitations: it is operator-dependent, and it needs to be carried out and interpreted by trained personnel. Pattern recognition and image analysis is a potential tool to enable automatic diagnosis of pneumonia consolidation without requiring an expert analyst. This paper presents a method for automatic classification of pneumonia using ultrasound imaging of the lungs and pattern recognition. The approach presented here is based on the analysis of brightness distribution patterns present in rectangular segments (here called “characteristic vectors“) from the ultrasound digital images. In a first step we identified and eliminated the skin and subcutaneous tissue (fat and muscle) in lung ultrasound frames, and the “characteristic vectors”were analyzed using standard neural networks using artificial intelligence methods. We analyzed 60 lung ultrasound frames corresponding to 21 children under age 5 years (15 children with confirmed pneumonia by clinical examination and X-rays, and 6 children with no pulmonary disease) from a hospital based population in Lima, Peru. Lung ultrasound images were obtained using an Ultrasonix ultrasound device. A total of 1450 positive (pneumonia) and 1605 negative (normal lung) vectors were analyzed with standard neural networks, and used to create an algorithm to differentiate lung infiltrates from healthy lung. A neural network was trained using the algorithm and it was able to correctly identify pneumonia infiltrates, with 90.9% sensitivity and 100% specificity. This approach may be used to develop operator-independent computer algorithms for pneumonia diagnosis using ultrasound in young children.
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spelling pubmed-62812432018-12-20 Automatic classification of pediatric pneumonia based on lung ultrasound pattern recognition Correa, Malena Zimic, Mirko Barrientos, Franklin Barrientos, Ronald Román-Gonzalez, Avid Pajuelo, Mónica J. Anticona, Cynthia Mayta, Holger Alva, Alicia Solis-Vasquez, Leonardo Figueroa, Dante Anibal Chavez, Miguel A. Lavarello, Roberto Castañeda, Benjamín Paz-Soldán, Valerie A. Checkley, William Gilman, Robert H. Oberhelman, Richard PLoS One Research Article Pneumonia is one of the major causes of child mortality, yet with a timely diagnosis, it is usually curable with antibiotic therapy. In many developing regions, diagnosing pneumonia remains a challenge, due to shortages of medical resources. Lung ultrasound has proved to be a useful tool to detect lung consolidation as evidence of pneumonia. However, diagnosis of pneumonia by ultrasound has limitations: it is operator-dependent, and it needs to be carried out and interpreted by trained personnel. Pattern recognition and image analysis is a potential tool to enable automatic diagnosis of pneumonia consolidation without requiring an expert analyst. This paper presents a method for automatic classification of pneumonia using ultrasound imaging of the lungs and pattern recognition. The approach presented here is based on the analysis of brightness distribution patterns present in rectangular segments (here called “characteristic vectors“) from the ultrasound digital images. In a first step we identified and eliminated the skin and subcutaneous tissue (fat and muscle) in lung ultrasound frames, and the “characteristic vectors”were analyzed using standard neural networks using artificial intelligence methods. We analyzed 60 lung ultrasound frames corresponding to 21 children under age 5 years (15 children with confirmed pneumonia by clinical examination and X-rays, and 6 children with no pulmonary disease) from a hospital based population in Lima, Peru. Lung ultrasound images were obtained using an Ultrasonix ultrasound device. A total of 1450 positive (pneumonia) and 1605 negative (normal lung) vectors were analyzed with standard neural networks, and used to create an algorithm to differentiate lung infiltrates from healthy lung. A neural network was trained using the algorithm and it was able to correctly identify pneumonia infiltrates, with 90.9% sensitivity and 100% specificity. This approach may be used to develop operator-independent computer algorithms for pneumonia diagnosis using ultrasound in young children. Public Library of Science 2018-12-05 /pmc/articles/PMC6281243/ /pubmed/30517102 http://dx.doi.org/10.1371/journal.pone.0206410 Text en © 2018 Correa et al http://creativecommons.org/licenses/by/4.0/ This is an open access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/) , which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
spellingShingle Research Article
Correa, Malena
Zimic, Mirko
Barrientos, Franklin
Barrientos, Ronald
Román-Gonzalez, Avid
Pajuelo, Mónica J.
Anticona, Cynthia
Mayta, Holger
Alva, Alicia
Solis-Vasquez, Leonardo
Figueroa, Dante Anibal
Chavez, Miguel A.
Lavarello, Roberto
Castañeda, Benjamín
Paz-Soldán, Valerie A.
Checkley, William
Gilman, Robert H.
Oberhelman, Richard
Automatic classification of pediatric pneumonia based on lung ultrasound pattern recognition
title Automatic classification of pediatric pneumonia based on lung ultrasound pattern recognition
title_full Automatic classification of pediatric pneumonia based on lung ultrasound pattern recognition
title_fullStr Automatic classification of pediatric pneumonia based on lung ultrasound pattern recognition
title_full_unstemmed Automatic classification of pediatric pneumonia based on lung ultrasound pattern recognition
title_short Automatic classification of pediatric pneumonia based on lung ultrasound pattern recognition
title_sort automatic classification of pediatric pneumonia based on lung ultrasound pattern recognition
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6281243/
https://www.ncbi.nlm.nih.gov/pubmed/30517102
http://dx.doi.org/10.1371/journal.pone.0206410
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