Disease localization and its prediction from retinal fundus images using explicitly designed deep learning architecture

Visual disability is increasing due to the incidence of diabetic retinopathy (DR), but timely detection and diagnosis can provide more treatment options and a greater chance of patient survival. Retinal imaging is used for screening and timely detection of the disease. However, determining the exa...

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Published in	Multimedia tools and applications Vol. 83; no. 10; pp. 28461 - 28478
Main Authors	Kumari, Pammi, Saxena, Priyank
Format	Journal Article
Language	English
Published	New York Springer US 01.03.2024 Springer Nature B.V
Subjects	Ablation Artificial neural networks Computer Communication Networks Computer Science Data Structures and Information Theory Deep learning Image classification Localization Machine learning Medical imaging Multimedia Information Systems Retinal images Special Purpose and Application-Based Systems Disease localization Diabetic retinopathy Layer visualization Ablation study Grad-CAM, APTOS dataset Convolutional neural network (CNN) Retinal fundus images
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Abstract	Visual disability is increasing due to the incidence of diabetic retinopathy (DR), but timely detection and diagnosis can provide more treatment options and a greater chance of patient survival. Retinal imaging is used for screening and timely detection of the disease. However, determining the exact stage of DR from color retinal fundus images is challenging because they consist of non-uniform lesions with indeterminate extremities. Hence, most of the pre-trained models used in earlier studies to classify retinal images couldn't deliver as expected because these models failed to understand the intricacies of the retinal images. Thus, this work addresses the classification of retinal images (S-0 to S-4) according to the extent of DR using a convolutional neural network (RINet) designed explicitly for retinal fundus images obtained from the APTOS dataset. To improve the classification performance of RINet, features from intermediate layers are extracted, which aid in improvising the model parameters as they indicate the actual state of the model. These extracted features are represented using layer visualization. For disease localization, Gradient-weighted Class Activation Mapping (Grad-CAM) is incorporated at the last convolutional layer, effectively highlighting the crucial regions for every stage in the image. In-depth ablation tests are conducted to realize the current form of the RINet and test its effectiveness. RINet achieves an accuracy of 85% for multi-stage and 95% for binary class on the test set. The simulation results show that the RINet outweighs the pre-trained models, particularly in moderate to severe DR stages.
AbstractList	Visual disability is increasing due to the incidence of diabetic retinopathy (DR), but timely detection and diagnosis can provide more treatment options and a greater chance of patient survival. Retinal imaging is used for screening and timely detection of the disease. However, determining the exact stage of DR from color retinal fundus images is challenging because they consist of non-uniform lesions with indeterminate extremities. Hence, most of the pre-trained models used in earlier studies to classify retinal images couldn't deliver as expected because these models failed to understand the intricacies of the retinal images. Thus, this work addresses the classification of retinal images (S-0 to S-4) according to the extent of DR using a convolutional neural network (RINet) designed explicitly for retinal fundus images obtained from the APTOS dataset. To improve the classification performance of RINet, features from intermediate layers are extracted, which aid in improvising the model parameters as they indicate the actual state of the model. These extracted features are represented using layer visualization. For disease localization, Gradient-weighted Class Activation Mapping (Grad-CAM) is incorporated at the last convolutional layer, effectively highlighting the crucial regions for every stage in the image. In-depth ablation tests are conducted to realize the current form of the RINet and test its effectiveness. RINet achieves an accuracy of 85% for multi-stage and 95% for binary class on the test set. The simulation results show that the RINet outweighs the pre-trained models, particularly in moderate to severe DR stages. Visual disability is increasing due to the incidence of diabetic retinopathy (DR), but timely detection and diagnosis can provide more treatment options and a greater chance of patient survival. Retinal imaging is used for screening and timely detection of the disease. However, determining the exact stage of DR from color retinal fundus images is challenging because they consist of non-uniform lesions with indeterminate extremities. Hence, most of the pre-trained models used in earlier studies to classify retinal images couldn't deliver as expected because these models failed to understand the intricacies of the retinal images. Thus, this work addresses the classification of retinal images (S-0 to S-4) according to the extent of DR using a convolutional neural network (RINet) designed explicitly for retinal fundus images obtained from the APTOS dataset. To improve the classification performance of RINet, features from intermediate layers are extracted, which aid in improvising the model parameters as they indicate the actual state of the model. These extracted features are represented using layer visualization. For disease localization, Gradient-weighted Class Activation Mapping (Grad-CAM) is incorporated at the last convolutional layer, effectively highlighting the crucial regions for every stage in the image. In-depth ablation tests are conducted to realize the current form of the RINet and test its effectiveness. RINet achieves an accuracy of 85% for multi-stage and 95% for binary class on the test set. The simulation results show that the RINet outweighs the pre-trained models, particularly in moderate to severe DR stages.
Author	Saxena, Priyank Kumari, Pammi
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Cites_doi	10.1186/s40537-021-00428-8 10.1109/JBHI.2020.3011805 10.1007/s10916-011-9663-8 10.1111/j.1464-5491.2012.03756.x 10.1007/s11892-012-0285-4 10.54060/JIEEE/002.02.016 10.1016/j.compbiomed.2019.103537 10.1161/01.STR.0000190838.02954.e8 10.1155/2016/6259047 10.1016/j.neucom.2018.07.102 10.1016/S2214-109X(18)30387-5 10.14257/ijgdc.2018.11.1.09 10.55529/jaimlnn.33.27.34 10.1371/journal.pone.0254180 10.3390/e22050567 10.1101/763136 10.1038/s41598-020-71908-9 10.1145/3470976 10.1109/EMBC44109.2020.9175884 10.1038/s41433-018-0269-y 10.1016/j.jfma.2020.03.024 10.1109/MWSCAS48704.2020.9184473 10.1007/s13410-023-01202-7 10.1016/j.micpro.2020.103353 10.48550/arXiv.1809.04228 10.1109/ComPE49325.2020.9200092 10.48550/arXiv.2003.02261 10.1108/ACI-07-2021-0191 10.1109/ETCCE51779.2020.9350905 10.1007/978-981-19-0019-8_49
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Keywords	Disease localization Diabetic retinopathy Layer visualization Ablation study Grad-CAM, APTOS dataset Convolutional neural network (CNN) Retinal fundus images
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Snippet	Visual disability is increasing due to the incidence of diabetic retinopathy (DR), but timely detection and diagnosis can provide more treatment options and... Visual disability is increasing due to the incidence of diabetic retinopathy (DR), but timely detection and diagnosis can provide more treatment options and a...
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SubjectTerms	Ablation Artificial neural networks Computer Communication Networks Computer Science Data Structures and Information Theory Deep learning Image classification Localization Machine learning Medical imaging Multimedia Information Systems Retinal images Special Purpose and Application-Based Systems
Title	Disease localization and its prediction from retinal fundus images using explicitly designed deep learning architecture
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