Automatic Screening of Lung Diseases by 3D Active Contour Method for Inhomogeneous Motion Estimation in CT Image Pairs

P. Vejjanugraha, K. Kotani, W. Kongprawechnon, T. Kondo, K. Tungpimolrut
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引用次数: 3

Abstract

Lung diseases are now the third leading cause of death worldwide because of the many risk factors we are exposed to daily, such as air pollution, tobacco use, viruses (such as COVID-19), and bacteria. This work introduces a new approach of the 3D Active Contour Model (3D ACM) to estimate an inhomogeneous motion of lungs, which can be used to analyze lung disease patterns using a hierarchical predictive model. The biophysical model of lungs consists of End Expiratory (EE) and End Inspiratory (EI) models, generated by high-resolution computed tomography images (HRCT). A proposed technique uses the 3D ACM to estimate the velocity vector by using the corresponding points on the parametric surface model of the EE model to the EI model. The external energy from the EI models is the external force that pushes the 3D parametric surface to reach the boundary. The external forces, such as the balloon force and Gradient Vector Flow (GVF), were adjusted adaptively based on the Zaratio which was calculated from the ratio of the maximum value of EI to EE on the Z axis. Next, the feature representation is studied and evaluated based on the lung structure, separated into five lobes. The stepwise regression, Support Vector Machine (SVM), and Artificial Neural Network (ANN) techniques are applied to classify the lung diseases into normal, obstructive lung, and restrictive lung diseases. In conclusion, the inhomogeneous motion pattern of lungs integrated with medical-based knowledge can be used to analyze lung diseases by differentiating normal and abnormal motion patterns and separating restrictive and obstructive lung diseases. [ABSTRACT FROM AUTHOR] Copyright of Walailak Journal of Science & Technology is the property of Walailak Journal of Science & Technology and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)
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基于CT图像对非均匀运动估计的三维主动轮廓法肺部疾病自动筛查
肺部疾病现在是全球第三大死亡原因,因为我们每天都会接触到许多风险因素,如空气污染、烟草使用、病毒(如新冠肺炎)和细菌。这项工作介绍了一种新的3D活动轮廓模型(3D ACM)方法来估计肺部的非均匀运动,该方法可用于使用分层预测模型分析肺部疾病模式。肺的生物物理模型由呼气末(EE)和吸气末(EI)模型组成,由高分辨率计算机断层扫描图像(HRCT)生成。所提出的技术使用3D ACM通过使用EE模型的参数表面模型上与EI模型的对应点来估计速度矢量。EI模型的外部能量是推动三维参数曲面到达边界的外力。根据Z轴上EI最大值与EE之比计算的Zaratio,自适应地调整了气球力和梯度矢量流(GVF)等外力。接下来,基于肺结构对特征表示进行研究和评估,将其分为五个肺叶。应用逐步回归、支持向量机(SVM)和人工神经网络(ANN)技术将肺部疾病分为正常肺疾病、阻塞性肺疾病和限制性肺疾病。总之,肺部的不均匀运动模式与医学知识相结合,可以通过区分正常和异常运动模式以及区分限制性和阻塞性肺部疾病来分析肺部疾病。【作者摘要】《瓦利拉克科技期刊》版权归瓦利拉克科技杂志所有,未经版权持有人明确书面许可,不得将其内容复制或通过电子邮件发送到多个网站或发布到listserv。但是,用户可以打印、下载或通过电子邮件发送文章供个人使用。这篇摘要可以节略。对复印件的准确性不作任何保证。用户应参考材料的原始发布版本以获取完整摘要。(版权适用于所有摘要。)
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来源期刊
Walailak Journal of Science and Technology
Walailak Journal of Science and Technology Multidisciplinary-Multidisciplinary
CiteScore
0.80
自引率
0.00%
发文量
0
审稿时长
24 weeks
期刊介绍: The Walailak Journal of Science and Technology (Walailak J. Sci. & Tech. or WJST), is a peer-reviewed journal covering all areas of science and technology, launched in 2004. It is published 12 Issues (Monthly) by the Institute of Research and Innovation of Walailak University. The scope of the journal includes the following areas of research : - Natural Sciences: Biochemistry, Chemical Engineering, Chemistry, Materials Science, Mathematics, Molecular Biology, Physics and Astronomy. -Life Sciences: Allied Health Sciences, Biomedical Sciences, Dentistry, Genetics, Immunology and Microbiology, Medicine, Neuroscience, Nursing, Pharmaceutics, Psychology, Public Health, Tropical Medicine, Veterinary. -Applied Sciences: Agricultural, Aquaculture, Biotechnology, Computer Science, Cybernetics, Earth and Planetary, Energy, Engineering, Environmental, Food Science, Information Technology, Meat Science, Nanotechnology, Plant Sciences, Systemics
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