Automated quantification and classification of malaria parasites in thin blood smears

2013 IEEE International Conference on Signal and Image Processing Applications Pub Date : 2013-10-01 DOI:10.1109/ICSIPA.2013.6708035

Z. May, Siti Sarah Azreen Mohd Aziz, Rabi'ahtuladawiah Salamat

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引用次数: 30

Abstract

Malaria is a life threatening disease caused by mosquitoes of Anopheles genus that carries the plasmodium parasites. Malaria parasites identification is currently done based on patient's symptoms and parasitological testing. Both methods have several drawbacks such as limited access to microscopy experts especially in rural area practice, restricted diagnostic facilities and costly. This paper presents an approach to automatically quantify and classify erythrocytes infected by Plasmodium vivax at trophozoites stages in thin blood smears. Experimentation is conducted in MATLAB environment specifically using the Image Processing Toolbox. Tasks are divided into three main stages namely image preprocessing, segmentation and classification. In preprocessing, images were first converted to L*a*b* color space and then filtered to remove noises. For segmentation stage, a threshold for each image was calculated using Otsu method. Further, dilation and erosion were performed to completely remove background elements. In the classification stage, images were classified based on the number of infected red blood cell detected. Testing performed using 350 images yielded in 99.72% sensitivity, 99.94% specificity and 98.90% positive predictive value. Results proved that this proposed method is highly potential for automated malaria parasites identification system.

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薄血涂片中疟原虫的自动定量和分类

疟疾是一种威胁生命的疾病，由携带疟原虫的按蚊属蚊子引起。疟疾寄生虫的鉴定目前是根据患者的症状和寄生虫学检测进行的。这两种方法都有一些缺点，如难以获得显微镜专家，特别是在农村地区的实践，有限的诊断设施和昂贵的。本文介绍了一种在薄血涂片滋养体阶段被间日疟原虫感染的红细胞自动定量和分类的方法。实验是在MATLAB环境下使用图像处理工具箱进行的。任务分为三个主要阶段，即图像预处理、分割和分类。在预处理中，首先将图像转换为L*a*b*色彩空间，然后进行滤波去除噪声。在分割阶段，使用Otsu方法计算每个图像的阈值。进一步，进行扩张和侵蚀以完全去除背景元素。在分类阶段，根据检测到的感染红细胞数量对图像进行分类。使用350张图像进行检测，灵敏度为99.72%，特异性为99.94%，阳性预测值为98.90%。结果表明，该方法在疟疾寄生虫自动鉴定系统中具有很高的应用潜力。

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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2013 IEEE International Conference on Signal and Image Processing Applications

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