基于动态时间扭曲的语音生物标志物对COVID-19感染患者进行严重程度分类的可行性研究(预印本)

Teruhisa Watase, Yasuhiro Omiya, Shinichi Tokuno
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Previous studies have shown that voice biomarkers for Parkinson disease or Alzheimer disease are useful for classifying or monitoring symptoms; thus, we tried to adapt voice biomarkers for classifying the severity of COVID-19 using a dynamic time warping (DTW) algorithm where voice wavelets can be treated as 2D features; the differences between wavelet features are calculated as scores. Objective This feasibility study aimed to test whether DTW-based indices can generate voice biomarkers for a binary classification model using COVID-19 patients’ voices to distinguish moderate illness from mild illness at a significant level. Methods We conducted a cross-sectional study using voice samples of COVID-19 patients. Three kinds of long vowels were processed into 10-cycle waveforms with standardized power and time axes. The DTW-based indices were generated by all pairs of waveforms and tested with the Mann-Whitney U test (α<.01) and verified with a linear discrimination analysis and confusion matrix to determine which indices were better for binary classification of disease severity. A binary classification model was generated based on a generalized linear model (GLM) using the most promising indices as predictors. The receiver operating characteristic curve/area under the curve (ROC/AUC) validated the model performance, and the confusion matrix calculated the model accuracy. Results Participants in this study (n=295) were infected with COVID-19 between June 2021 and March 2022, were aged 20 years or older, and recuperated in Kanagawa prefecture. Voice samples (n=110) were selected from the participants’ attribution matrix based on age group, sex, time of infection, and whether they had mild illness (n=61) or moderate illness (n=49). 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引用次数: 0

摘要

在日本,患有COVID-19轻度疾病的个人以前需要在指定区域进行监测,只有当病情恶化到中度或更严重时才需要住院治疗。脉搏血氧仪的日常监测是住院治疗的关键指标。然而,患者数量的急剧增加导致用于监测的脉搏血氧仪短缺。因此,需要一种具有成本效益的替代方法来监测轻度疾病患者。先前的研究表明,帕金森病或阿尔茨海默病的语音生物标志物有助于分类或监测症状;因此,我们尝试使用动态时间规整(DTW)算法调整语音生物标记物来分类COVID-19的严重程度,其中语音小波可以被视为2D特征;小波特征之间的差异被计算为分数。目的本可行性研究旨在检验基于dtw的指标能否生成语音生物标志物,用于基于COVID-19患者声音的二元分类模型,在显著水平上区分中度疾病和轻度疾病。方法采用新冠肺炎患者语音样本进行横断面研究。将三种长元音加工成具有标准化功率轴和时间轴的10周波形。基于dtw的指标由所有对波形生成,采用Mann-Whitney U检验(α<.01)进行检验,并采用线性判别分析和混淆矩阵进行验证,以确定哪些指标更适合疾病严重程度的二元分类。在广义线性模型(GLM)的基础上,以最有希望的指标作为预测因子,建立了二元分类模型。受试者工作特征曲线/曲线下面积(ROC/AUC)验证模型性能,混淆矩阵计算模型精度。结果本研究的参与者(n=295)于2021年6月至2022年3月期间感染COVID-19,年龄在20岁及以上,在神奈川县休养。根据参与者的年龄、性别、感染时间以及是否患有轻度疾病(n=61)或中度疾病(n=49),从他们的归因矩阵中选择语音样本(n=110)。基于dtw的方差指标显著(P<001, 6个指标中的1个除外),对于/a/, /e/和/u/元音的平衡准确率在79%到88.6%之间。GLM的平衡准确度为86.3% (/a/), 80.2% (/e/)和88% (/u/), /a/的ROC/AUC为94.8% (95% CI 90.6%-94.8%), /e/的86.5% (95% CI 79.8%-86.5%), /u/的95.6% (95% CI 92.1%-95.6%)。结论该模型可作为一种语音生物标志物,为监测COVID-19患者在护理中的进展提供一种替代且具有成本效益的方法。
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Severity Classification Using Dynamic Time Warping-Based Voice Biomarkers for COVID-19 Infected Patients: A Feasibility Study (Preprint)
Background In Japan, individuals with mild COVID-19 illness previously required to be monitored in designated areas and were hospitalized only if their condition worsened to moderate illness or worse. Daily monitoring using a pulse oximeter was a crucial indicator for hospitalization. However, a drastic increase in the number of patients resulted in a shortage of pulse oximeters for monitoring. Therefore, an alternative and cost-effective method for monitoring patients with mild illness was required. Previous studies have shown that voice biomarkers for Parkinson disease or Alzheimer disease are useful for classifying or monitoring symptoms; thus, we tried to adapt voice biomarkers for classifying the severity of COVID-19 using a dynamic time warping (DTW) algorithm where voice wavelets can be treated as 2D features; the differences between wavelet features are calculated as scores. Objective This feasibility study aimed to test whether DTW-based indices can generate voice biomarkers for a binary classification model using COVID-19 patients’ voices to distinguish moderate illness from mild illness at a significant level. Methods We conducted a cross-sectional study using voice samples of COVID-19 patients. Three kinds of long vowels were processed into 10-cycle waveforms with standardized power and time axes. The DTW-based indices were generated by all pairs of waveforms and tested with the Mann-Whitney U test (α<.01) and verified with a linear discrimination analysis and confusion matrix to determine which indices were better for binary classification of disease severity. A binary classification model was generated based on a generalized linear model (GLM) using the most promising indices as predictors. The receiver operating characteristic curve/area under the curve (ROC/AUC) validated the model performance, and the confusion matrix calculated the model accuracy. Results Participants in this study (n=295) were infected with COVID-19 between June 2021 and March 2022, were aged 20 years or older, and recuperated in Kanagawa prefecture. Voice samples (n=110) were selected from the participants’ attribution matrix based on age group, sex, time of infection, and whether they had mild illness (n=61) or moderate illness (n=49). The DTW-based variance indices were found to be significant (P<.001, except for 1 of 6 indices), with a balanced accuracy in the range between 79% and 88.6% for the /a/, /e/, and /u/ vowel sounds. The GLM achieved a high balance accuracy of 86.3% (for /a/), 80.2% (for /e/), and 88% (for /u/) and ROC/AUC of 94.8% (95% CI 90.6%-94.8%) for /a/, 86.5% (95% CI 79.8%-86.5%) for /e/, and 95.6% (95% CI 92.1%-95.6%) for /u/. Conclusions The proposed model can be a voice biomarker for an alternative and cost-effective method of monitoring the progress of COVID-19 patients in care.
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