Ng Andrew Keong, Koh Tong San, Baey Eugene, Lee Teck Hock, Abeyratne Udantha Ranjith, Puvanendran Kathiravelu
School of Electrical and Electronic Engineering, Nanyang Technological University, Singapore, Republic of Singapore.
Sleep Med. 2008 Dec;9(8):894-8. doi: 10.1016/j.sleep.2007.07.010. Epub 2007 Sep 6.
To study the feasibility of using acoustic signatures in snore signals for the diagnosis of obstructive sleep apnea (OSA).
Snoring sounds of 30 apneic snorers (24 males; 6 females; apnea-hypopnea index, AHI=46.9+/-25.7events/h) and 10 benign snorers (6 males; 4 females; AHI=4.6+/-3.4events/h) were captured in a sleep laboratory. The recorded snore signals were preprocessed to remove noise, and subsequently, modeled using a linear predictive coding (LPC) technique. Formant frequencies (F1, F2, and F3) were extracted from the LPC spectrum for analysis. The accuracy of this approach was assessed using receiver operating characteristic curves and notched box plots. The relationship between AHI and F1 was further explored via regression analysis.
Quantitative differences in formant frequencies between apneic and benign snores are found in same- or both-gender snorers. Apneic snores exhibit higher formant frequencies than benign snores, especially F1, which can be related to the pathology of OSA. This study yields a sensitivity of 88%, a specificity of 82%, and a threshold value of F1=470Hz that best differentiate apneic snorers from benign snorers (both gender combined).
Acoustic signatures in snore signals carry information for OSA diagnosis, and snore-based analysis might potentially be a non-invasive and inexpensive diagnostic approach for mass screening of OSA.
研究利用鼾声信号中的声学特征诊断阻塞性睡眠呼吸暂停(OSA)的可行性。
在睡眠实验室中采集了30名呼吸暂停打鼾者(24名男性;6名女性;呼吸暂停低通气指数,AHI = 46.9±25.7次/小时)和10名良性打鼾者(6名男性;4名女性;AHI = 4.6±3.4次/小时)的鼾声。对记录的鼾声信号进行预处理以去除噪声,随后使用线性预测编码(LPC)技术进行建模。从LPC频谱中提取共振峰频率(F1、F2和F3)进行分析。使用受试者工作特征曲线和缺口箱线图评估该方法的准确性。通过回归分析进一步探讨AHI与F1之间的关系。
在同性或两性打鼾者中,呼吸暂停打鼾和良性打鼾的共振峰频率存在定量差异。呼吸暂停打鼾的共振峰频率高于良性打鼾,尤其是F1,这可能与OSA的病理状况有关。本研究得出的敏感度为88%,特异度为82%,F1 = 470Hz的阈值最能区分呼吸暂停打鼾者和良性打鼾者(两性合并)。
鼾声信号中的声学特征携带了用于OSA诊断的信息,基于鼾声的分析可能是一种用于OSA大规模筛查的非侵入性且廉价的诊断方法。
