Abstract
Retina is a network layer containing light-sensitive cells. Diseases that occur in this layer, which performs the eye-sight, threaten our eye-sight directly. Diabetic Retinopathy is one of the main complications of diabetes mellitus and it is the most significant factor contributing to blindness in the later stages of the disease. Therefore, early diagnosis is of great importance to prevent the progress of this disease. For this purpose, in this study, an application based on image processing techniques and machine learning, which provides decision support to specialist, was developed for the detection of hard exudates, cotton spots, hemorrhage and microaneurysm lesions which appear in the early stages of the disease. The meaningful information was extracted from a set of samples obtained from the DIARETDB1 dataset during the system modeling process. In this process, Gabor and Discrete Fourier Transform attributes were utilized and dimension reduction was performed by using Spectral Regression Discriminant Analysis algorithm. Then, Random Forest and Logistic Regression and classifier algorithms’ performances were evaluated on each attribute dataset. Experimental results were obtained using the retinal fundus images provided from both DIARETDB1 dataset and the department of Ophthalmology, Ataturk Training and Research Hospital in Ankara.
Highlights
Diabetic Retinopathy (DR) which is the subject of many studies in medical image processing field is a disease that begins with the influence of the retinal capillaries due to effect of blood sugar increase depending on diabetes and can result complete loss of sense of sight in its progressive stages [1]-[2]
There are two phases of DR disease which is directly proportional with the level of structural deterioration in retinal images: early-stage diabetic retinopathy (ESDR) and advanced-stage diabetic retinopathy (ASDR) [3]
This study shows similarities with other studies in terms of workflow, but it differs from others using Discrete Fourier Transform Attributes (DFTA) and Spectral Regression Discriminant Analysis (SRDA) algorithms
Summary
Diabetic Retinopathy (DR) which is the subject of many studies in medical image processing field is a disease that begins with the influence of the retinal capillaries due to effect of blood sugar increase depending on diabetes and can result complete loss of sense of sight in its progressive stages [1]-[2]. There are two phases of DR disease which is directly proportional with the level of structural deterioration in retinal images: early-stage diabetic retinopathy (ESDR) and advanced-stage diabetic retinopathy (ASDR) [3]. Automatic detection and segmentation studies on ESDR disease gained great momentum in recent years, new competencies are being added each passing day. The regular examination requirement of this disease and the lack of specialist make the procedures that should be carried out with automated systems compulsory
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