Rohan Gorantla scite author profile

Diabetic Macular Edema (DME) is an advanced stage of Diabetic Retinopathy (DR) and can lead to permanent vision loss. Currently, it affects 26.7 million people globally and on account of such a huge number of DME cases and the limited number of ophthalmologists, it is desirable to automate the diagnosis process. Computer-assisted, deep learning based diagnosis could help in early detection, following which precision medication can help to mitigate the vision loss. Method: In order to automate the screening of DME, we propose a novel DMENet Algorithm which is built on the pillars of Convolutional Neural Networks (CNNs). DMENet analyses the preprocessed color fundus images and passes it through a two-stage pipeline. The first stage detects the presence or absence of DME whereas the second stage takes only the positive cases and grades the images based on severity. In both the stages, we use a novel Hierarchical Ensemble of CNNs (HE-CNN). This paper uses two of the popular publicly available datasets IDRiD and MESSIDOR for classification. Preprocessing on the images is performed using morphological opening and gaussian kernel. The dataset is augmented to solve the class imbalance problem for better performance of the proposed model. Results: The proposed methodology achieved an average Accuracy of 96.12%, Sensitivity of 96.32%, Specificity of 95.84%, and F−1 score of 0.9609 on MESSI-DOR and IDRiD datasets. Conclusion: These excellent results establish the validity of the proposed methodology for use in DME screening and solidifies the applicability of the HE-CNN classification technique in the domain of biomedical imaging.

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Cervical Cancer Diagnosis using CervixNet - A Deep Learning Approach

Gorantla

Singh

Pandey

et al. 2019

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SHEG: summarization and headline generation of news articles using deep learning

Singh

Khetarpaul

Gorantla

et al. 2020

Neural Comput & Applic

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SkiNet: A deep learning framework for skin lesion diagnosis with uncertainty estimation and explainability

Singh

Gorantla²,

Allada³

et al. 2022

PLoS ONE

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Skin cancer is considered to be the most common human malignancy. Around 5 million new cases of skin cancer are recorded in the United States annually. Early identification and evaluation of skin lesions are of great clinical significance, but the disproportionate dermatologist-patient ratio poses a significant problem in most developing nations. Therefore a novel deep architecture, named as SkiNet, is proposed to provide faster screening solution and assistance to newly trained physicians in the process of clinical diagnosis of skin cancer. The main motive behind SkiNet’s design and development is to provide a white box solution, addressing a critical problem of trust and interpretability which is crucial for the wider adoption of Computer-aided diagnosis systems by medical practitioners. The proposed SkiNet is a two-stage pipeline wherein the lesion segmentation is followed by the lesion classification. Monte Carlo dropout and test time augmentation techniques have been employed in the proposed method to estimate epistemic and aleatoric uncertainty. A novel segmentation model named Bayesian MultiResUNet is used to estimate the uncertainty on the predicted segmentation map. Saliency-based methods like XRAI, Grad-CAM and Guided Backprop are explored to provide post-hoc explanations of the deep learning models. The ISIC-2018 dataset is used to perform the experimentation and ablation studies. The results establish the robustness of the proposed model on the traditional benchmarks while addressing the black-box nature of such models to alleviate the skepticism of medical practitioners by incorporating transparency and confidence to the model’s prediction.

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DMENet: Diabetic Macular Edema Diagnosis using Hierarchical Ensemble of CNN’s

Singh

Gorantla

2019

Preprint

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Diabetic Macular Edema (DME) is an advanced stage of Diabetic Retinopathy (DR) and can lead to permanent vision loss. Currently, it affects 26.7 million people globally and on account of such huge number of DME cases and limited number of ophthalmologists, it is desirable to automate the diagnosis process. Computer-assisted, deep learning based diagnosis will help in early detection, following which appropriate medication can help to mitigate the vision loss. Method: In order to automate the screening of DME, we propose a novel DMENet Algorithm which is built on the pillars of Convolutional Neural Networks (CNN's). DMENet analyses the preprocessed color fundus images and passes it through a two-stage pipeline. The first stage detects the presence or absence of DME whereas the second stage takes the positive cases and grades the images based on severity. In both the stages, we use a novel Hierarchical Ensemble of CNN's (HE-CNN). This paper uses two of the popular publicly available datasets IDRiD and MESSIDOR for classification. Preprocessing on the images is performed using morphological opening, Gaussian kernel and the dataset is augmented to solve the class imbalance problem. Results: The proposed methodology achieved an Accuracy of 96.12%, Sensitivity of 96.32%, Specificity of 95.84%, and F−1 score of 0.9609. Conclusion: These excellent results establishes the validity of the proposed methodology for use in DME screening and solidifies the applicability of HE-CNN classification technique in the domain of bio-medical imaging.

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Rohan Gorantla

DMENet: Diabetic Macular Edema diagnosis using Hierarchical Ensemble of CNNs

Cervical Cancer Diagnosis using CervixNet - A Deep Learning Approach

SHEG: summarization and headline generation of news articles using deep learning

SkiNet: A deep learning framework for skin lesion diagnosis with uncertainty estimation and explainability

DMENet: Diabetic Macular Edema Diagnosis using Hierarchical Ensemble of CNN’s

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