tbzmedTabriz University of Medical SciencesJARCMJournal of Analytical Research in Clinical MedicineOriginal ArticleJournal of Analytical Research in Clinical MedicineAutomatic detection of retinal exudates in fundus images of diabetic retinopathy patientsDetection of retinal exudates in DR fundus imagesPartoviMahsa, RastaSeyedTabriz University of Medical Sciences, Medical BioengineeringJavadzadehAlireza, 520163152016421912016Tabriz University of Medical Sciences2016Automatic detection of retinal exudates in fundus images of diabetic retinopathy patients

Introduction: Diabetic retinopathy (DR) is the most frequent microvascular complication of diabetes and can lead to several retinal abnormalities including microaneurysms, exudates, dot and blot hemorrhages, and cotton wool spots. Automated early detection of these abnormalities could limit the severity of the disease and assist ophthalmologists in investigating and treating the disease more efficiently. Segmentation of retinal image features provides the basis for automated assessment. In this study, exudates lesion on retinopathy retinal images was segmented by different image processing techniques. The objective of this study is detection of the exudates regions on retinal images of retinopathy patients by different image processing techniques. Methods: A total of 30 color images from retinopathy patients were selected for this study. The images were taken by Topcon TRC-50 IX mydriatic camera and saves with TIFF format with a resolution of 500 × 752 pixels. The morphological function was applied on intensity components of hue saturation intensity (HSI) space. To detect the exudates regions, thresholding was performed on all images and the exudates region was segmented. To optimize the detection efficiency, the binary morphological functions were applied. Finally, the exudates regions were quantified and evaluated for further statistical purposes. Results: The average of sensitivity of 76%, specificity of 98%, and accuracy of 97% was obtained. Conclusion: The results showed that our approach can identify the exudate regions in retinopathy images.