Pulse Photoplethysmography Derived Respiration for Obstructive Sleep Apnea Detection

Lázaro, Jesús; Gil, Eduardo; Deviaene, Margot; Bailón, Raquel; Testelmans, Dries; Buyse, Bertien; Varon, Carolina; Huffel, Sabine Van

doi:10.22489/cinc.2017.273-229

Cited by 7 publications

(11 citation statements)

References 13 publications

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“…given in Table 1, is lower than in previous studies in literature. We achieve an accuracy of 68.7 %, whereas in [6] an accuracy of 72.66% was obtained. In this study, however, only obstructive apneas were considered.…”

Section: Classifiermentioning

confidence: 78%

“…The PPG signals were preprocessed by applying a lowpass filter with a cut-off frequency of 35 Hz [6]. Next, the PPG peaks were detected by applying a linear filtering transformation to emphasize the peak slopes, followed by an adaptive thresholding [5].…”

Section: Ppg Processingmentioning

confidence: 99%

“…The peak apex point (nA) was extracted, as well as its basal (nB) and mid-point (nM). Moreover, the first derivative of the signal was used to compute the peak onset (nO), end point (nE), and the slope end point (nEs) [6]. From these peak points 6 PPG time series were computed.…”

Section: Ppg Processingmentioning

confidence: 99%

“…These could be due to subclinical apneas which are too short to be scored according to the AASM rules, or other causes such as movement of the patient. In [6], it was investigated whether these false positives occurred more often during REM sleep, which was not the case. In this study the patients were on average in REM sleep for 14 % of the recordings.…”

Section: Classifiermentioning

confidence: 99%

“…Since the pulse oximeter used to measure the SpO2 also records the pulse photoplethysmography (PPG) signal, this signal seems to be the first choice to improve the SpO2 based detection. Previous studies have already used the PPG signal for the detection of sleep apnea [5][6], since parameters linked to autonomic arousals and respiration can be extracted from the signal.…”

Section: Introductionmentioning

confidence: 99%

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Sleep Apnea Detection Using Pulse Photoplethysmography

Deviaene

Lázaro

Huysmans

et al. 2018

2018 Computing in Cardiology Conference (CinC)

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This study investigates the use of pulse photoplethysmography (PPG) for the detection of sleep apnea and its added value to oxygen saturation (SpO2) based detection. PPG-time series known to be modulated by both respiration and the autonomous nervous system were derived: pulse rate, amplitude and width variability, slope transit time, maximal pulse upslope and the area under the PPG peak. Moreover, the instantaneous power in the high and low frequency band of the pulse rate was estimated using a point-process model. For all extracted time series, five features were computed over a 1 minute interval: the mean, minimum and maximum value, standard deviation and gradient. Feature selection resulted in the 6 most discriminative features for PPG based detection of apneic minutes. These features were used as input for a least-squares support vector machine classifier, which was applied on polysomnographic data of 102 subjects suspected of having sleep apnea-hypopnea syndrome. A classification accuracy of 68.7 % was achieved. When SpO2 features were added to the classifier the accuracy increased to 83.4 %, which is only slightly higher than the 82.2 % obtained using only SpO2. These results show the potential of PPG features for sleep apnea detection, however, their added value to SpO2 is limited.

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Section: Classifiermentioning

confidence: 78%

Section: Ppg Processingmentioning

confidence: 99%

Section: Ppg Processingmentioning

confidence: 99%

Section: Classifiermentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Sleep Apnea Detection Using Pulse Photoplethysmography

Deviaene

Lázaro

Huysmans

et al. 2018

2018 Computing in Cardiology Conference (CinC)

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Automatic diagnosis of sleep apnea from biomedical signals using artificial intelligence techniques: Methods, challenges, and future works

Moridian

Shoeibi

Khodatars

et al. 2022

WIREs Data Min & Knowl

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Apnea is a sleep disorder that stops or reduces airflow for a short time during sleep. Sleep apnea may last for a few seconds and happen for many while sleeping. This reduction in breathing is associated with loud snoring, which may awaken the person with a feeling of suffocation. So far, a variety of methods have been introduced by researchers to diagnose sleep apnea, among which the polysomnography (PSG) method is known to be the best. Analysis of PSG signals is very complicated. Many studies have been conducted on the automatic diagnosis of sleep apnea from biological signals using artificial intelligence (AI), including machine learning (ML) and deep learning (DL) methods. This research reviews and investigates the studies on the diagnosis of sleep apnea using AI methods. First, computer aided diagnosis system (CADS) for sleep apnea using ML and DL techniques along with its parts including dataset, preprocessing, and ML and DL methods are introduced. This research also summarizes the important specifications of the studies on the diagnosis of sleep apnea using ML and DL methods in a table. In the following, a comprehensive discussion is made on the studies carried out in this field. The challenges in the diagnosis of sleep apnea using AI methods are of paramount importance for researchers. Accordingly, these obstacles are elaborately addressed. In another section, the most important future works for studies on sleep apnea detection from PSG signals and AI techniques are presented. Ultimately, the essential findings of this study are provided in the conclusion section. This article is categorized under: Technologies > Artificial Intelligence Application Areas > Data Mining Software Tools Algorithmic Development > Biological Data Mining

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MonEco: a Novel Health Monitoring Ecosystem to Predict Respiratory and Cardiovascular Disorders

Lazazzera¹,

Carrault²

2023

IRBM

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Pulse Photoplethysmography Derived Respiration for Obstructive Sleep Apnea Detection

Cited by 7 publications

References 13 publications

Sleep Apnea Detection Using Pulse Photoplethysmography

Sleep Apnea Detection Using Pulse Photoplethysmography

Automatic diagnosis of sleep apnea from biomedical signals using artificial intelligence techniques: Methods, challenges, and future works

MonEco: a Novel Health Monitoring Ecosystem to Predict Respiratory and Cardiovascular Disorders

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