Fundus Image
Fundus images, photographs of the back of the eye, are crucial for diagnosing various retinal diseases. Current research focuses on improving the accuracy and efficiency of automated analysis using deep learning models, including convolutional neural networks (CNNs), Vision Transformers (ViTs), and generative adversarial networks (GANs), often incorporating techniques like attention mechanisms and self-supervised learning to handle noisy or limited data. These advancements aim to improve diagnostic accuracy, reduce the need for expert interpretation, and enable large-scale screening programs for early detection and intervention of eye diseases, ultimately impacting patient care and public health. A significant area of ongoing work addresses the challenges of generalizability and bias in these models to ensure equitable performance across diverse populations and imaging modalities.
Papers
KaLDeX: Kalman Filter based Linear Deformable Cross Attention for Retina Vessel Segmentation
Zhihao Zhao, Shahrooz Faghihroohi, Yinzheng Zhao, Junjie Yang, Shipeng Zhong, Kai Huang, Nassir Navab, Boyang Li, M.Ali Nasseri
Extrapolating Prospective Glaucoma Fundus Images through Diffusion Model in Irregular Longitudinal Sequences
Zhihao Zhao, Junjie Yang, Shahrooz Faghihroohi, Yinzheng Zhao, Daniel Zapp, Kai Huang, Nassir Navab, M.Ali Nasseri
A Multi-Dataset Classification-Based Deep Learning Framework for Electronic Health Records and Predictive Analysis in Healthcare
Syed Mohd Faisal Malik, Md Tabrez Nafis, Mohd Abdul Ahad, Safdar Tanweer
SSP-RACL: Classification of Noisy Fundus Images with Self-Supervised Pretraining and Robust Adaptive Credal Loss
Mengwen Ye, Yingzi Huangfu, You Li, Zekuan Yu