Trung Q. Le scite author profile

Obstructive sleep apnea (OSA) is a common sleep disorder found in 24% of adult men and 9% of adult women. Although continuous positive airway pressure (CPAP) has emerged as a standard therapy for OSA, a majority of patients are not tolerant to this treatment, largely because of the uncomfortable nasal air delivery during their sleep. Recent advances in wireless communication and advanced (“bigdata”) preditive analytics technologies offer radically new point-of-care treatment approaches for OSA episodes with unprecedented comfort and afforadability. We introduce a Dirichlet process-based mixture Gaussian process (DPMG) model to predict the onset of sleep apnea episodes based on analyzing complex cardiorespiratory signals gathered from a custom-designed wireless wearable multisensory suite. Extensive testing with signals from the multisensory suite as well as PhysioNet's OSA database suggests that the accuracy of offline OSA classification is 88%, and accuracy for predicting an OSA episode 1-min ahead is 83% and 3-min ahead is 77%. Such accurate prediction of an impending OSA episode can be used to adaptively adjust CPAP airflow (toward improving the patient's adherence) or the torso posture (e.g., minor chin adjustments to maintain steady levels of the airflow).

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Identification of myocardial infarction (MI) using spatio-temporal heart dynamics

Yang¹,

Bukkapatnam²,

Le³

et al. 2012

Medical Engineering & Physics

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Reduced risk estimations after remediation of lead (Pb) in drinking water at two US school districts

Triantafyllidou

Gallagher

et al. 2014

Science of The Total Environment

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Detection of sleep apnea events via tracking nonlinear dynamic cardio-respiratory coupling from electrocardiogram signals

Karandikar

Sa-ngasoongsong

et al. 2013

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Topology and Random-Walk Network Representation of Cardiac Dynamics for Localization of Myocardial Infarction

Bukkapatnam

Benjamin

et al. 2013

IEEE Trans. Biomed. Eng.

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While detection of acute cardiac disorders such as myocardial infarction (MI) from electrocardiogram (ECG) and vectorcardiogram (VCG) has been widely reported, identification of MI locations from these signals, pivotal for timely therapeutic and prognostic interventions, remains a standing issue. We present an approach for MI localization based on representing complex spatiotemporal patterns of cardiac dynamics as a random-walk network reconstructed from the evolution of VCG signals across a 3-D state space. Extensive tests with signals from the PTB database of the PhysioNet databank suggest that locations of MI can be determined accurately (sensitivity of ∼88% and specificity of ∼92%) from tracking certain consistently estimated invariants of this random-walk representation.

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Prediction of sleep apnea episodes from a wireless wearable multisensor suite

Cheng

Sa-ngasoongsong

et al. 2013

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Trung Q. Le

Time series forecasting for nonlinear and non-stationary processes: a review and comparative study

Pretreatment of a primary and secondary sludge blend at different thermal hydrolysis temperatures: Impacts on anaerobic digestion, dewatering and filtrate characteristics

Wireless Wearable Multisensory Suite and Real-Time Prediction of Obstructive Sleep Apnea Episodes

Identification of myocardial infarction (MI) using spatio-temporal heart dynamics

Reduced risk estimations after remediation of lead (Pb) in drinking water at two US school districts

Detection of sleep apnea events via tracking nonlinear dynamic cardio-respiratory coupling from electrocardiogram signals

Topology and Random-Walk Network Representation of Cardiac Dynamics for Localization of Myocardial Infarction

Prediction of sleep apnea episodes from a wireless wearable multisensor suite

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