IEEE Rev Biomed Eng. 2019;12:221-239. doi: 10.1109/RBME.2018.2874353. Epub 2018 Oct 29.
Recent developments in sensor technology and computational analysis methods enable new strategies to measure and interpret lung acoustic signals that originate internally, such as breathing or vocal sounds, or are externally introduced, such as in chest percussion or airway insonification. A better understanding of these sounds has resulted in a new instrumentation that allows for highly accurate as well as portable options for measurement in the hospital, in the clinic, and even at home. This review outlines the instrumentation for acoustic stimulation and measurement of the lungs. We first review the fundamentals of acoustic lung signals and the pathophysiology of the diseases that these signals are used to detect. Then, we focus on different methods of measuring and creating signals that have been used in recent research for pulmonary disease diagnosis. These new methods, combined with signal processing and modeling techniques, lead to a reduction in noise and allow improved feature extraction and signal classification. We conclude by presenting the results of human subject studies taking advantage of both the instrumentation and signal processing tools to accurately diagnose common lung diseases. This paper emphasizes the active areas of research within modern lung acoustics and encourages the standardization of future work in this field.
近年来,传感器技术和计算分析方法的发展使得能够采用新的策略来测量和解释源自肺部内部的声音信号,例如呼吸或发声声音,或者是外部引入的声音,例如胸部叩诊或气道听诊。对这些声音的更好理解导致了新的仪器仪表的出现,这些仪器仪表允许在医院、诊所甚至家中进行高度精确和便携式的测量。本文概述了用于肺部声学刺激和测量的仪器仪表。我们首先回顾了声学肺部信号的基础知识以及这些信号用于检测的疾病的病理生理学。然后,我们专注于用于最近研究中肺部疾病诊断的不同测量和产生信号的方法。这些新方法与信号处理和建模技术相结合,可降低噪声并允许更好地提取特征和信号分类。最后,我们通过介绍利用仪器仪表和信号处理工具来准确诊断常见肺部疾病的人体研究结果来得出结论。本文强调了现代肺部声学领域的活跃研究领域,并鼓励该领域未来工作的标准化。