Pneumonia and tuberculosis detection with chest x-ray images and medical records using deep learning techniques

Review of Computer Engineering Research Pub Date : 2023-11-28 DOI:10.18488/76.v10i4.3533

Sudhir Kumar Mohapatra, Mesfin Abebe, Lidia Mekuanint, Srinivas Prasad, Prasanta Kumar Bala, Sunil Kumar Dhala

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Abstract

Pneumonia and tuberculosis are the major public health problems worldwide. These diseases affect the lungs, and if they are not diagnosed properly in time, they can become a fatal health problem. Chest x-ray images are widely used to detect and diagnose Pneumonia and Tuberculosis disease. Detection of Pneumonia and Tuberculosis from chest x-ray images is difficult and requires experience due to the similar pathological features of the diseases. Sometimes a misdiagnosis of the disease occurs due to this similarity. Several researchers used deep learning and machine learning techniques to solve this misdiagnosis problem. However, these studies used the chest x-ray images only to develop Pneumonia and Tuberculosis disease detection models. But using the chest x-ray images alone cannot necessarily lead to accurate disease detection and classification. In the traditional or manual approach, medical records are required to support and correctly interpret the chest x-ray images in the appropriate clinical context. This study develops a multi-input Pneumonia and Tuberculosis detection model using chest x-ray images and medical records to follow the clinical procedure. The study applied a Convolutional Neural Network for the chest x-ray image data and a Multilayer perceptron for the medical record data to develop the models. We implemented feature-level concatenation to join the output feature vectors from the Convolutional Neural Network and a Multilayer perceptron for the development of the disease detection model. For the purpose of comparison, we also developed image-only and medical record-only models. Consequently, the image-only model gives an accuracy of 92.68%, the medical record-only model results in 98.72% accuracy, and the combined model accuracy is improved to 99.61%. In general, the study shows that the fusion of the chest x-ray and the medical records leads to better accuracy and is more similar to the clinical approach.

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利用深度学习技术通过胸部 X 光图像和病历检测肺炎和肺结核

肺炎和肺结核是全球主要的公共卫生问题。这些疾病会影响肺部，如果不能及时得到正确诊断，就会成为致命的健康问题。胸部 X 光图像被广泛用于检测和诊断肺炎和肺结核疾病。由于肺炎和肺结核的病理特征相似，因此从胸部 X 光图像检测这两种疾病非常困难，而且需要经验。有时，这种相似性会导致疾病的误诊。一些研究人员使用深度学习和机器学习技术来解决这一误诊问题。不过，这些研究仅使用胸部 X 光图像来开发肺炎和肺结核疾病检测模型。但是，仅使用胸部 X 光图像并不一定能实现准确的疾病检测和分类。在传统或人工方法中，需要医疗记录的支持，并在适当的临床背景下正确解读胸部 X 光图像。本研究利用胸部 X 光图像和医疗记录开发了一个多输入肺炎和肺结核检测模型，以遵循临床程序。该研究对胸部 X 光图像数据采用卷积神经网络，对医疗记录数据采用多层感知器来开发模型。我们采用了特征级连接技术，将卷积神经网络和多层感知器的输出特征向量连接起来，以建立疾病检测模型。为了进行比较，我们还开发了纯图像模型和纯病历模型。结果，纯图像模型的准确率为 92.68%，纯病历模型的准确率为 98.72%，综合模型的准确率提高到 99.61%。总的来说，研究表明，胸部 X 光片和医疗记录的融合能带来更好的准确性，并且更接近临床方法。

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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Review of Computer Engineering Research

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