Redefining retinal vessel segmentation: empowering advanced fundus image analysis with the potential of GANs

Badar Almarri; Baskaran Naveen Kumar; Haradi Aditya Pai; Surbhi Bhatia Khan; Surbhi Bhatia Khan; Fatima Asiri; Thyluru Ramakrishna Mahesh

doi:10.3389/fmed.2024.1470941

Frontiers in Medicine (Oct 2024)

Redefining retinal vessel segmentation: empowering advanced fundus image analysis with the potential of GANs

Badar Almarri,
Baskaran Naveen Kumar,
Haradi Aditya Pai,
Surbhi Bhatia Khan,
Surbhi Bhatia Khan,
Fatima Asiri,
Thyluru Ramakrishna Mahesh

Affiliations

Badar Almarri: Department of Computer Science, College of Computer Sciences and Information Technology, King Faisal University, Alhasa, Saudi Arabia
Baskaran Naveen Kumar: Department of Computer Science and Engineering, Faculty of Engineering and Technology, JAIN (Deemed-to-be University), Bengaluru, India
Haradi Aditya Pai: Department of Computer Science and Engineering, MIT School of Computing, MIT Art, Design and Technology University, Pune, India
Surbhi Bhatia Khan: School of Science, Engineering and Environment, University of Salford, Manchester, United Kingdom
Surbhi Bhatia Khan: Adjunct Research Faculty at the Centre for Research Impact & Outcome, Chitkara University, Punjab, India
Fatima Asiri: College of Computer Science, Informatics and Computer Systems Department, King Khalid University, Abha, Saudi Arabia
Thyluru Ramakrishna Mahesh: Department of Computer Science and Engineering, Faculty of Engineering and Technology, JAIN (Deemed-to-be University), Bengaluru, India

DOI: https://doi.org/10.3389/fmed.2024.1470941
Journal volume & issue: Vol. 11

Abstract

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Retinal vessel segmentation is a critical task in fundus image analysis, providing essential insights for diagnosing various retinal diseases. In recent years, deep learning (DL) techniques, particularly Generative Adversarial Networks (GANs), have garnered significant attention for their potential to enhance medical image analysis. This paper presents a novel approach for retinal vessel segmentation by harnessing the capabilities of GANs. Our method, termed GANVesselNet, employs a specialized GAN architecture tailored to the intricacies of retinal vessel structures. In GANVesselNet, a dual-path network architecture is employed, featuring an Auto Encoder-Decoder (AED) pathway and a UNet-inspired pathway. This unique combination enables the network to efficiently capture multi-scale contextual information, improving the accuracy of vessel segmentation. Through extensive experimentation on publicly available retinal datasets, including STARE and DRIVE, GANVesselNet demonstrates remarkable performance compared to traditional methods and state-of-the-art deep learning approaches. The proposed GANVesselNet exhibits superior sensitivity (0.8174), specificity (0.9862), and accuracy (0.9827) in segmenting retinal vessels on the STARE dataset, and achieves commendable results on the DRIVE dataset with sensitivity (0.7834), specificity (0.9846), and accuracy (0.9709). Notably, GANVesselNet achieves remarkable performance on previously unseen data, underscoring its potential for real-world clinical applications. Furthermore, we present qualitative visualizations of the generated vessel segmentations, illustrating the network’s proficiency in accurately delineating retinal vessels. In summary, this paper introduces GANVesselNet, a novel and powerful approach for retinal vessel segmentation. By capitalizing on the advanced capabilities of GANs and incorporating a tailored network architecture, GANVesselNet offers a quantum leap in retinal vessel segmentation accuracy, opening new avenues for enhanced fundus image analysis and improved clinical decision-making.

Published in Frontiers in Medicine

ISSN: 2296-858X (Online)
Publisher: Frontiers Media S.A.
Country of publisher: Switzerland
LCC subjects: Medicine: Medicine (General)
Website: http://www.frontiersin.org/journals/medicine

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