Automatic tissue characterization of air trapping in chest radiographs using deep neural networks

Significant progress has been made in recent years for computer-aided diagnosis of abnormal pulmonary textures from computed tomography (CT) images. Similar initiatives in chest radiographs (CXR), the common modality for pulmonary diagnosis, are much less developed. CXR are fast, cost effective and...

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Published in2016 38th Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBC) Vol. 2016; pp. 97 - 100
Main Authors Mansoor, Awais, Perez, Geovanny, Nino, Gustavo, Linguraru, Marius George
Format Conference Proceeding Journal Article
LanguageEnglish
Published United States IEEE 01.08.2016
Subjects
Air
Charge carrier processes
Computed tomography
Diagnosis, Computer-Assisted
Humans
Image Processing, Computer-Assisted - methods
Lung - diagnostic imaging
Lungs
Machine learning
Neural Networks, Computer
Radiography, Thoracic - methods
Shape
Training
Virus Diseases - diagnostic imaging
Visualization
Online AccessGet full text
ISSN1557-170X
DOI10.1109/EMBC.2016.7590649

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Abstract Significant progress has been made in recent years for computer-aided diagnosis of abnormal pulmonary textures from computed tomography (CT) images. Similar initiatives in chest radiographs (CXR), the common modality for pulmonary diagnosis, are much less developed. CXR are fast, cost effective and low-radiation solution to diagnosis over CT. However, the subtlety of textures in CXR makes them hard to discern even by trained eye. We explore the performance of deep learning abnormal tissue characterization from CXR. Prior studies have used CT imaging to characterize air trapping in subjects with pulmonary disease; however, the use of CT in children is not recommended mainly due to concerns pertaining to radiation dosage. In this work, we present a stacked autoencoder (SAE) deep learning architecture for automated tissue characterization of air-trapping from CXR. To our best knowledge this is the first study applying deep learning framework for the specific problem on 51 CXRs, an F-score of ≈ 76.5% and a strong correlation with the expert visual scoring (R=0.93, p =<; 0.01) demonstrate the potential of the proposed method to characterization of air trapping.
AbstractList Significant progress has been made in recent years for computer-aided diagnosis of abnormal pulmonary textures from computed tomography (CT) images. Similar initiatives in chest radiographs (CXR), the common modality for pulmonary diagnosis, are much less developed. CXR are fast, cost effective and low-radiation solution to diagnosis over CT. However, the subtlety of textures in CXR makes them hard to discern even by trained eye. We explore the performance of deep learning abnormal tissue characterization from CXR. Prior studies have used CT imaging to characterize air trapping in subjects with pulmonary disease; however, the use of CT in children is not recommended mainly due to concerns pertaining to radiation dosage. In this work, we present a stacked autoencoder (SAE) deep learning architecture for automated tissue characterization of air-trapping from CXR. To our best knowledge this is the first study applying deep learning framework for the specific problem on 51 CXRs (≈ 76.5%, F -score) and a strong correlation with the expert visual scoring (R=0.93, p = < 0.01) demonstrate the potential of the proposed method to characterization of air trapping.
Significant progress has been made in recent years for computer-aided diagnosis of abnormal pulmonary textures from computed tomography (CT) images. Similar initiatives in chest radiographs (CXR), the common modality for pulmonary diagnosis, are much less developed. CXR are fast, cost effective and low-radiation solution to diagnosis over CT. However, the subtlety of textures in CXR makes them hard to discern even by trained eye. We explore the performance of deep learning abnormal tissue characterization from CXR. Prior studies have used CT imaging to characterize air trapping in subjects with pulmonary disease; however, the use of CT in children is not recommended mainly due to concerns pertaining to radiation dosage. In this work, we present a stacked autoencoder (SAE) deep learning architecture for automated tissue characterization of air-trapping from CXR. To our best knowledge this is the first study applying deep learning framework for the specific problem on 51 CXRs, an F-score of ≈ 76.5% and a strong correlation with the expert visual scoring (R=0.93, p =<; 0.01) demonstrate the potential of the proposed method to characterization of air trapping.
Author Nino, Gustavo
Perez, Geovanny
Linguraru, Marius George
Mansoor, Awais
AuthorAffiliation b Division of Pulmonary and Sleep Medicine, Childrens National Health System, Washington, DC
c School of Medicine and Health Sciences, George Washington University, DC
a Sheikh Zayed Institute for Pediatric Surgical Innovation, Children’s National Health System, Washington DC
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Snippet Significant progress has been made in recent years for computer-aided diagnosis of abnormal pulmonary textures from computed tomography (CT) images. Similar...
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SubjectTerms Air
Charge carrier processes
Computed tomography
Diagnosis, Computer-Assisted
Humans
Image Processing, Computer-Assisted - methods
Lung - diagnostic imaging
Lungs
Machine learning
Neural Networks, Computer
Radiography, Thoracic - methods
Shape
Training
Virus Diseases - diagnostic imaging
Visualization
Title Automatic tissue characterization of air trapping in chest radiographs using deep neural networks
URI https://ieeexplore.ieee.org/document/7590649
https://www.ncbi.nlm.nih.gov/pubmed/28324924
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