Diagnostic System Based on Deep Learning to Detect Diabetic Retinopathy

Pakistan Journal of Ophthalmology Pub Date : 2024-07-01 DOI:10.36351/pjo.v40i3.1771

Devendra Singh, Dinesh C. Dobhal, Janmejay Pant

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Abstract

Purpose: To develop a machine learning based diabetic retinopathy screening system to help ophthalmologists for initial level screening. Study Design: Diagnostic accuracy study. Place and Duration of Study: Haldwani in a private hospital from January, 2023 to June, 2023. Methods: A total of 229 fundus images (people suffering from diabetic retinopathy)were used which had micro aneurysms, soft exudates, hard exudates and hemorrhages. We classified these images and pre-processed them by scaling, orienting, and color adjustments. With the help of various pre-processing techniques, we decreased the size of our dataset so that it can be handled efficiently by our model with optimal resources.Visual Geometry Group (VGG) is a type of pre-trained deep convolutional neural network (CNN). The term “deep” refers to the number of layers; the VGG-16 uses 16 and VGG-19 uses 19 convolutional layers respectively. The model was tested on fresh retinal dataset. Results: Our research has demonstrated promising results, achieving a high accuracy rate of 90% on a human dataset by utilizing VGG16 for feature extraction and a Logistic Regression classifier for classification. Conclusion: Ophthalmologists can utilize this machine learning based screening system for diabetic retinopathy screening.

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基于深度学习的糖尿病视网膜病变诊断系统

目的：开发基于机器学习的糖尿病视网膜病变筛查系统，帮助眼科医生进行初步筛查：诊断准确性研究：研究地点和时间：2023年1月至2023年6月，Haldwani的一家私立医院：共使用了 229 张眼底图像（糖尿病视网膜病变患者），其中包括微动脉瘤、软性渗出、硬性渗出和出血。我们对这些图像进行了分类，并通过缩放、定向和颜色调整对其进行了预处理。在各种预处理技术的帮助下，我们减小了数据集的大小，这样我们的模型就能以最佳资源有效地处理这些数据集。VGG-16和VGG-19分别使用了16和19个卷积层。该模型在新鲜的视网膜数据集上进行了测试：我们的研究取得了可喜的成果，利用 VGG16 进行特征提取，利用逻辑回归分类器进行分类，在人类数据集上取得了 90% 的高准确率：结论：眼科医生可以利用这一基于机器学习的筛查系统进行糖尿病视网膜病变筛查。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Pakistan Journal of Ophthalmology

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