Cascaded redundant convolutional encoder-decoder network improved apnea detection performance using tracheal sounds in post anesthesia care unit patients.

IF 1.3 Q3 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING Biomedical Physics & Engineering Express Pub Date : 2024-11-01 DOI:10.1088/2057-1976/ad89c6
Erpeng Zhang, Xiuzhu Jia, Yanan Wu, Jing Liu, Lu Yu
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Abstract

Objective. Methods of detecting apnea based on acoustic features can be prone to misdiagnosed and missed diagnoses due to the influence of noise. The aim of this paper is to improve the performance of apnea detection algorithms in the Post Anesthesia Care Unit (PACU) using a denoising method that processes tracheal sounds without the need for separate background noise.Approach. Tracheal sound data from laboratory subjects was collected using a microphone. Record a segment of clinical background noise and clean tracheal sound data to synthesize the noisy tracheal sound data according to a specified signal-to-noise ratio. Extract the frequency-domain features of the tracheal sounds using the Short Time Fourier Transform (STFT) and input the Cascaded Redundant Convolutional Encoder-Decoder network (CR-CED) network for training. Patients' tracheal sound data collected in the PACU were then fed into the CR-CED network as test data and inversely transformed by STFT to obtain denoised tracheal sounds. The apnea detection algorithm was used to detect the tracheal sound after denoising.Results. Apnea events were correctly detected 207 times and normal respiratory events 11,305 times using tracheal sounds denoised by the CR-CED network. The sensitivity and specificity of apnea detection were 88% and 98.6%, respectively.Significance. The apnea detection results of tracheal sounds after CR-CED network denoising in the PACU are accurate and reliable. Tracheal sound can be denoised using this approach without separate background noise. It effectively improves the applicability of the tracheal sound denoising method in the medical environment while ensuring its correctness.

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级联冗余卷积编码器-解码器网络利用气管声改善了麻醉后护理病房患者呼吸暂停检测性能。
目的: 基于声学特征的呼吸暂停检测方法容易因噪声影响而造成误诊和漏诊。本文旨在使用去噪方法提高麻醉后护理病房(PACU)中呼吸暂停检测算法的性能,该方法无需单独的背景噪声即可处理气管声。记录一段临床背景噪声和干净的气管声音数据,根据指定的信噪比合成有噪声的气管声音数据。使用短时傅里叶变换(STFT)提取气管声音的频域特征,并输入级联冗余卷积编码器-解码器网络(CR-CED)进行训练。然后将在 PACU 收集到的患者气管声数据作为测试数据输入 CR-CED 网络,并通过 STFT 进行反变换,以获得去噪气管声。结果: CR-CED 网络对气管声进行去噪后,正确检测到呼吸暂停事件 207 次,正常呼吸事件 11,305 次。呼吸暂停检测的灵敏度和特异度分别为 88% 和 98.6%。 意义: 在 PACU 中对气管声进行 CR-CED 网络去噪后的呼吸暂停检测结果准确可靠。使用这种方法对气管声进行去噪,无需单独的背景噪声。它有效提高了气管声去噪方法在医疗环境中的适用性,同时确保了其正确性。
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来源期刊
Biomedical Physics & Engineering Express
Biomedical Physics & Engineering Express RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING-
CiteScore
2.80
自引率
0.00%
发文量
153
期刊介绍: BPEX is an inclusive, international, multidisciplinary journal devoted to publishing new research on any application of physics and/or engineering in medicine and/or biology. Characterized by a broad geographical coverage and a fast-track peer-review process, relevant topics include all aspects of biophysics, medical physics and biomedical engineering. Papers that are almost entirely clinical or biological in their focus are not suitable. The journal has an emphasis on publishing interdisciplinary work and bringing research fields together, encompassing experimental, theoretical and computational work.
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