解读呼气气溶胶指纹用于小型航空公司阻塞性呼吸道疾病的早期诊断和个性化治疗

X. Si, J. Xi
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引用次数: 4

摘要

呼吸道疾病通常在早期没有明显症状,通常在肺部受到永久性损伤时才被诊断出来。肺部发病机制的一个主要部位是小气道,由于疾病的位置(无法进行活检)和大小(低于正常的CT/MRI分辨率),使用现有技术进行检测具有很大的挑战性。在这篇综述中,我们提出了一种基于呼出气溶胶的小气道肺部疾病检测和治疗新方法,其模式与肺部健康独特相关。概念验证研究首先出现在理想化的肺部几何形状中。随后,我们描述了呼出气溶胶图像的特征提取和分类的最新进展,以建立图像与潜在气道重塑之间的关系。阐述了不同的特征提取算法(气溶胶密度、分形维数、主模式分析和动态模式分解)和机器学习方法(支持向量机、随机森林和卷积神经网络)。最后,从作者的角度讨论了气溶胶呼吸测试的未来研究和临床应用中常见的问题。与传统方法相比,所提出的呼吸测试具有临床优势,如易于执行、无创、提供实时反馈,在早期检测无症状肺部疾病方面很有前景。
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Deciphering Exhaled Aerosol Fingerprints for Early Diagnosis and Personalized Therapeutics of Obstructive Respiratory Diseases in Small Airways
Respiratory diseases often show no apparent symptoms at their early stages and are usually diagnosed when permanent damages have been made to the lungs. A major site of lung pathogenesis is the small airways, which make it highly challenging to detect using current techniques due to the diseases’ location (inaccessibility to biopsy) and size (below normal CT/MRI resolution). In this review, we present a new method for lung disease detection and treatment in small airways based on exhaled aerosols, whose patterns are uniquely related to the health of the lungs. Proof-of-concept studies are first presented in idealized lung geometries. We subsequently describe the recent developments in feature extraction and classification of the exhaled aerosol images to establish the relationship between the images and the underlying airway remodeling. Different feature extraction algorithms (aerosol density, fractal dimension, principal mode analysis, and dynamic mode decomposition) and machine learning approaches (support vector machine, random forest, and convolutional neural network) are elaborated upon. Finally, future studies and frequent questions related to clinical applications of the proposed aerosol breath testing are discussed from the authors’ perspective. The proposed breath testing has clinical advantages over conventional approaches, such as easy-to-perform, non-invasive, providing real-time feedback, and is promising in detecting symptomless lung diseases at early stages.
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