Sleep Apnea and Respiratory Anomaly Detection from a Wearable Band and Oxygen Saturation
Autor: | Ganglberger, Wolfgang, Bucklin, Abigail A., Tesh, Ryan A., Cardoso, Madalena Da Silva, Sun, Haoqi, Leone, Michael J., Paixao, Luis, Panneerselvam, Ezhil, Ye, Elissa M., Thompson, B. Taylor, Akeju, Oluwaseun, Kuller, David, Thomas, Robert J., Westover, M. Brandon |
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Rok vydání: | 2021 |
Předmět: | |
Druh dokumentu: | Working Paper |
Popis: | Objective: Sleep related respiratory abnormalities are typically detected using polysomnography. There is a need in general medicine and critical care for a more convenient method to automatically detect sleep apnea from a simple, easy-to-wear device. The objective is to automatically detect abnormal respiration and estimate the Apnea-Hypopnea-Index (AHI) with a wearable respiratory device, compared to an SpO2 signal or polysomnography using a large (n = 412) dataset serving as ground truth. Methods: Simultaneously recorded polysomnographic (PSG) and wearable respiratory effort data were used to train and evaluate models in a cross-validation fashion. Time domain and complexity features were extracted, important features were identified, and a random forest model employed to detect events and predict AHI. Four models were trained: one each using the respiratory features only, a feature from the SpO2 (%)-signal only, and two additional models that use the respiratory features and the SpO2 (%)-feature, one allowing a time lag of 30 seconds between the two signals. Results: Event-based classification resulted in areas under the receiver operating characteristic curves of 0.94, 0.86, 0.82, and areas under the precision-recall curves of 0.48, 0.32, 0.51 for the models using respiration and SpO2, respiration-only, and SpO2-only respectively. Correlation between expert-labelled and predicted AHI was 0.96, 0.78, and 0.93, respectively. Conclusions: A wearable respiratory effort signal with or without SpO2 predicted AHI accurately. Given the large dataset and rigorous testing design, we expect our models are generalizable to evaluating respiration in a variety of environments, such as at home and in critical care. Comment: Co-First Authors: Wolfgang Ganglberger, Abigail A. Bucklin Co-Senior Authors: Robert J. Thomas, M. Brandon Westover |
Databáze: | arXiv |
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