Abstract
Fundus image segmentation technology has always been an important tool in the medical imaging field. Recent studies have validated that deep learning techniques can effectively segment retinal anatomy and determine pathological structure in retinal fundus photographs. However, several groups of image segmentation methods used in medical imaging only provide a single retinopathic feature (e.g., roth spots and exudates). In this paper, we propose a more accurate and clinically oriented framework for the segmentation of fundus images from end-to-end input. We design a four-path multiscale input network structure that learns network features and finds overall characteristics via our network. Our network’s structure is not limited by segmentation of single retinopathic features. Our method is suitable for exudates, roth spots, blood vessels, and optic discs segmentation. The structure has general applicability to many fundus models; therefore, we use our own dataset for training. In cooperation with hospitals and board-certified ophthalmologists, the proposed framework is validated on retinal images from large databases and can improve diagnostic performance compared to state-of-the-art methods that use smaller databases for training. The proposed framework detects blood vessels with an accuracy of 0.927, which is comparable to exudate accuracy (0.939) and roth spot accuracy (0.904), providing ophthalmologists with a practical diagnostic and a robust analytical tool.
Highlights
Retinopathy is a symptom of many common diseases, such as diabetes, arteriosclerosis, and leukemia [1,2,3]
We find that the PixelNet [20] model is the most effective segmentation finder; this is suitable for retinal fundus image segmentation
Our method is suitable for exudates, roth spots, blood vessels, and optic discs segmentation, and our database has an adaptive thresholding method to segment the field of view (FOV) boundary from the background of the retinal fundus image
Summary
Retinopathy is a symptom of many common diseases, such as diabetes, arteriosclerosis, and leukemia [1,2,3]. Proposed a retinal image vessel segmentation method based on CNNs and a conditional random field (CRF). This method treats the blood vessel segmentation step as a boundary detection problem and uses a CNN to generate a segmentation probability map. We find that the PixelNet [20] model (based on the number of pixel points of a feature map) is the most effective segmentation finder; this is suitable for retinal fundus image segmentation. Our method is suitable for exudates, roth spots, blood vessels, and optic discs segmentation, and our database has an adaptive thresholding method to segment the field of view (FOV) boundary from the background of the retinal fundus image. The network models are distributed to multiple GPUs for segmentation and validation, based on the test image set, 0 to achieve independent segmentation between the various structures in the images
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