Pneumoconiosis computer aided diagnosis system based on X-rays and deep learning
Purpose The objective of this study is to construct a computer aided diagnosis system for normal people and pneumoconiosis using X-raysand deep learning algorithms. Materials and methods 1760 anonymous digital X-ray images of real patients between January 2017 and June 2020 were collected for this e...
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| Published in | BMC medical imaging Vol. 21; no. 1; pp. 189 - 7 |
|---|---|
| Main Authors | , , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
London
BioMed Central
08.12.2021
BioMed Central Ltd Springer Nature B.V BMC |
| Subjects | |
| Online Access | Get full text |
| ISSN | 1471-2342 1471-2342 |
| DOI | 10.1186/s12880-021-00723-z |
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| Abstract | Purpose
The objective of this study is to construct a computer aided diagnosis system for normal people and pneumoconiosis using X-raysand deep learning algorithms.
Materials and methods
1760 anonymous digital X-ray images of real patients between January 2017 and June 2020 were collected for this experiment. In order to concentrate the feature extraction ability of the model more on the lung region and restrain the influence of external background factors, a two-stage pipeline from coarse to fine was established. First, the U-Net model was used to extract the lung regions on each sides of the collection images. Second, the ResNet-34 model with transfer learning strategy was implemented to learn the image features extracted in the lung region to achieve accurate classification of pneumoconiosis patients and normal people.
Results
Among the 1760 cases collected, the accuracy and the area under curve of the classification model were 92.46% and 89% respectively.
Conclusion
The successful application of deep learning in the diagnosis of pneumoconiosis further demonstrates the potential of medical artificial intelligence and proves the effectiveness of our proposed algorithm. However, when we further classified pneumoconiosis patients and normal subjects into four categories, we found that the overall accuracy decreased to 70.1%. We will use the CT modality in future studies to provide more details of lung regions. |
|---|---|
| AbstractList | Purpose
The objective of this study is to construct a computer aided diagnosis system for normal people and pneumoconiosis using X-raysand deep learning algorithms.
Materials and methods
1760 anonymous digital X-ray images of real patients between January 2017 and June 2020 were collected for this experiment. In order to concentrate the feature extraction ability of the model more on the lung region and restrain the influence of external background factors, a two-stage pipeline from coarse to fine was established. First, the U-Net model was used to extract the lung regions on each sides of the collection images. Second, the ResNet-34 model with transfer learning strategy was implemented to learn the image features extracted in the lung region to achieve accurate classification of pneumoconiosis patients and normal people.
Results
Among the 1760 cases collected, the accuracy and the area under curve of the classification model were 92.46% and 89% respectively.
Conclusion
The successful application of deep learning in the diagnosis of pneumoconiosis further demonstrates the potential of medical artificial intelligence and proves the effectiveness of our proposed algorithm. However, when we further classified pneumoconiosis patients and normal subjects into four categories, we found that the overall accuracy decreased to 70.1%. We will use the CT modality in future studies to provide more details of lung regions. Purpose The objective of this study is to construct a computer aided diagnosis system for normal people and pneumoconiosis using X-raysand deep learning algorithms. Materials and methods 1760 anonymous digital X-ray images of real patients between January 2017 and June 2020 were collected for this experiment. In order to concentrate the feature extraction ability of the model more on the lung region and restrain the influence of external background factors, a two-stage pipeline from coarse to fine was established. First, the U-Net model was used to extract the lung regions on each sides of the collection images. Second, the ResNet-34 model with transfer learning strategy was implemented to learn the image features extracted in the lung region to achieve accurate classification of pneumoconiosis patients and normal people. Results Among the 1760 cases collected, the accuracy and the area under curve of the classification model were 92.46% and 89% respectively. Conclusion The successful application of deep learning in the diagnosis of pneumoconiosis further demonstrates the potential of medical artificial intelligence and proves the effectiveness of our proposed algorithm. However, when we further classified pneumoconiosis patients and normal subjects into four categories, we found that the overall accuracy decreased to 70.1%. We will use the CT modality in future studies to provide more details of lung regions. Keywords: Pneumoconiosis diagnosis, X-rays, Deep learning, U-Net, ResNet The objective of this study is to construct a computer aided diagnosis system for normal people and pneumoconiosis using X-raysand deep learning algorithms. 1760 anonymous digital X-ray images of real patients between January 2017 and June 2020 were collected for this experiment. In order to concentrate the feature extraction ability of the model more on the lung region and restrain the influence of external background factors, a two-stage pipeline from coarse to fine was established. First, the U-Net model was used to extract the lung regions on each sides of the collection images. Second, the ResNet-34 model with transfer learning strategy was implemented to learn the image features extracted in the lung region to achieve accurate classification of pneumoconiosis patients and normal people. Among the 1760 cases collected, the accuracy and the area under curve of the classification model were 92.46% and 89% respectively. The successful application of deep learning in the diagnosis of pneumoconiosis further demonstrates the potential of medical artificial intelligence and proves the effectiveness of our proposed algorithm. However, when we further classified pneumoconiosis patients and normal subjects into four categories, we found that the overall accuracy decreased to 70.1%. We will use the CT modality in future studies to provide more details of lung regions. The objective of this study is to construct a computer aided diagnosis system for normal people and pneumoconiosis using X-raysand deep learning algorithms.PURPOSEThe objective of this study is to construct a computer aided diagnosis system for normal people and pneumoconiosis using X-raysand deep learning algorithms.1760 anonymous digital X-ray images of real patients between January 2017 and June 2020 were collected for this experiment. In order to concentrate the feature extraction ability of the model more on the lung region and restrain the influence of external background factors, a two-stage pipeline from coarse to fine was established. First, the U-Net model was used to extract the lung regions on each sides of the collection images. Second, the ResNet-34 model with transfer learning strategy was implemented to learn the image features extracted in the lung region to achieve accurate classification of pneumoconiosis patients and normal people.MATERIALS AND METHODS1760 anonymous digital X-ray images of real patients between January 2017 and June 2020 were collected for this experiment. In order to concentrate the feature extraction ability of the model more on the lung region and restrain the influence of external background factors, a two-stage pipeline from coarse to fine was established. First, the U-Net model was used to extract the lung regions on each sides of the collection images. Second, the ResNet-34 model with transfer learning strategy was implemented to learn the image features extracted in the lung region to achieve accurate classification of pneumoconiosis patients and normal people.Among the 1760 cases collected, the accuracy and the area under curve of the classification model were 92.46% and 89% respectively.RESULTSAmong the 1760 cases collected, the accuracy and the area under curve of the classification model were 92.46% and 89% respectively.The successful application of deep learning in the diagnosis of pneumoconiosis further demonstrates the potential of medical artificial intelligence and proves the effectiveness of our proposed algorithm. However, when we further classified pneumoconiosis patients and normal subjects into four categories, we found that the overall accuracy decreased to 70.1%. We will use the CT modality in future studies to provide more details of lung regions.CONCLUSIONThe successful application of deep learning in the diagnosis of pneumoconiosis further demonstrates the potential of medical artificial intelligence and proves the effectiveness of our proposed algorithm. However, when we further classified pneumoconiosis patients and normal subjects into four categories, we found that the overall accuracy decreased to 70.1%. We will use the CT modality in future studies to provide more details of lung regions. The objective of this study is to construct a computer aided diagnosis system for normal people and pneumoconiosis using X-raysand deep learning algorithms. 1760 anonymous digital X-ray images of real patients between January 2017 and June 2020 were collected for this experiment. In order to concentrate the feature extraction ability of the model more on the lung region and restrain the influence of external background factors, a two-stage pipeline from coarse to fine was established. First, the U-Net model was used to extract the lung regions on each sides of the collection images. Second, the ResNet-34 model with transfer learning strategy was implemented to learn the image features extracted in the lung region to achieve accurate classification of pneumoconiosis patients and normal people. Among the 1760 cases collected, the accuracy and the area under curve of the classification model were 92.46% and 89% respectively. The successful application of deep learning in the diagnosis of pneumoconiosis further demonstrates the potential of medical artificial intelligence and proves the effectiveness of our proposed algorithm. However, when we further classified pneumoconiosis patients and normal subjects into four categories, we found that the overall accuracy decreased to 70.1%. We will use the CT modality in future studies to provide more details of lung regions. Abstract Purpose The objective of this study is to construct a computer aided diagnosis system for normal people and pneumoconiosis using X-raysand deep learning algorithms. Materials and methods 1760 anonymous digital X-ray images of real patients between January 2017 and June 2020 were collected for this experiment. In order to concentrate the feature extraction ability of the model more on the lung region and restrain the influence of external background factors, a two-stage pipeline from coarse to fine was established. First, the U-Net model was used to extract the lung regions on each sides of the collection images. Second, the ResNet-34 model with transfer learning strategy was implemented to learn the image features extracted in the lung region to achieve accurate classification of pneumoconiosis patients and normal people. Results Among the 1760 cases collected, the accuracy and the area under curve of the classification model were 92.46% and 89% respectively. Conclusion The successful application of deep learning in the diagnosis of pneumoconiosis further demonstrates the potential of medical artificial intelligence and proves the effectiveness of our proposed algorithm. However, when we further classified pneumoconiosis patients and normal subjects into four categories, we found that the overall accuracy decreased to 70.1%. We will use the CT modality in future studies to provide more details of lung regions. Purpose The objective of this study is to construct a computer aided diagnosis system for normal people and pneumoconiosis using X-raysand deep learning algorithms. Materials and methods 1760 anonymous digital X-ray images of real patients between January 2017 and June 2020 were collected for this experiment. In order to concentrate the feature extraction ability of the model more on the lung region and restrain the influence of external background factors, a two-stage pipeline from coarse to fine was established. First, the U-Net model was used to extract the lung regions on each sides of the collection images. Second, the ResNet-34 model with transfer learning strategy was implemented to learn the image features extracted in the lung region to achieve accurate classification of pneumoconiosis patients and normal people. Results Among the 1760 cases collected, the accuracy and the area under curve of the classification model were 92.46% and 89% respectively. Conclusion The successful application of deep learning in the diagnosis of pneumoconiosis further demonstrates the potential of medical artificial intelligence and proves the effectiveness of our proposed algorithm. However, when we further classified pneumoconiosis patients and normal subjects into four categories, we found that the overall accuracy decreased to 70.1%. We will use the CT modality in future studies to provide more details of lung regions. |
| ArticleNumber | 189 |
| Audience | Academic |
| Author | Tang, Zhi-Ri Yu, Zekuan Yang, Fan Yu, Yuanyuan Tang, Min Guo, Yinan Wang, Shengchun Chen, Jing Qi, Wanyin Yao, Chong |
| Author_xml | – sequence: 1 givenname: Fan surname: Yang fullname: Yang, Fan organization: Department of Radiology, The Affiliated Hospital of Southwest Medical University, Key Laboratory of Industrial Dust Prevention and Control and Occupational Health and Safety, Ministry of Education – sequence: 2 givenname: Zhi-Ri surname: Tang fullname: Tang, Zhi-Ri organization: School of Physics and Technology, Wuhan University, Key Laboratory of Industrial Dust Prevention and Control and Occupational Health and Safety, Ministry of Education – sequence: 3 givenname: Jing surname: Chen fullname: Chen, Jing organization: Department of Radiology, The Affiliated Hospital of Southwest Medical University – sequence: 4 givenname: Min surname: Tang fullname: Tang, Min organization: Department of Radiology, The Affiliated Hospital of Southwest Medical University – sequence: 5 givenname: Shengchun surname: Wang fullname: Wang, Shengchun organization: Luzhou Center for Disease Control and Prevention – sequence: 6 givenname: Wanyin surname: Qi fullname: Qi, Wanyin organization: Department of Radiology, The Affiliated Hospital of Southwest Medical University – sequence: 7 givenname: Chong surname: Yao fullname: Yao, Chong organization: Key Laboratory of Industrial Dust Prevention and Control and Occupational Health and Safety, Ministry of Education, Academy for Engineering and Technology, Fudan University – sequence: 8 givenname: Yuanyuan surname: Yu fullname: Yu, Yuanyuan organization: Key Laboratory of Industrial Dust Prevention and Control and Occupational Health and Safety, Ministry of Education, Academy for Engineering and Technology, Fudan University – sequence: 9 givenname: Yinan surname: Guo fullname: Guo, Yinan organization: School of Information and Control Engineering, China University of Mining and Technology – sequence: 10 givenname: Zekuan surname: Yu fullname: Yu, Zekuan email: yzk@fudan.edu.cn organization: Key Laboratory of Industrial Dust Prevention and Control and Occupational Health and Safety, Ministry of Education, Department of Radiology, Huashan Hospital, Fudan University, Academy for Engineering and Technology, Fudan University, Guangxi Key Laboratory of Automatic Detecting Technology and Instruments (Guilin University of Electronic Technology) |
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| Keywords | Deep learning Pneumoconiosis diagnosis U-Net X-rays ResNet |
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The objective of this study is to construct a computer aided diagnosis system for normal people and pneumoconiosis using X-raysand deep learning... The objective of this study is to construct a computer aided diagnosis system for normal people and pneumoconiosis using X-raysand deep learning algorithms.... Purpose The objective of this study is to construct a computer aided diagnosis system for normal people and pneumoconiosis using X-raysand deep learning... The objective of this study is to construct a computer aided diagnosis system for normal people and pneumoconiosis using X-raysand deep learning... Abstract Purpose The objective of this study is to construct a computer aided diagnosis system for normal people and pneumoconiosis using X-raysand deep... |
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| SubjectTerms | Accuracy Adult Aged Aged, 80 and over Algorithms Artificial intelligence Classification Coronaviruses COVID-19 Data mining Datasets Deep Learning Diagnosis Diagnosis, Computer-Assisted Digital imaging Disease Dust Feature extraction Female Humans Image classification Imaging Learning algorithms Lungs Machine learning Male Medical diagnosis Medical imaging Medical imaging equipment Medicine Medicine & Public Health Middle Aged Patients Pneumoconiosis Pneumoconiosis - diagnostic imaging Pneumoconiosis diagnosis Radiology ResNet Retrospective Studies Semantics Transfer learning U-Net X-Rays |
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| Title | Pneumoconiosis computer aided diagnosis system based on X-rays and deep learning |
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