Continuous and non-invasive monitoring of hemodynamic parameters through unobtrusive wearable sensors can potentially aid in early detection of cardiac abnormalities, and provides a viable solution for long-term follow-up of patients with chronic cardiovascular diseases without disrupting the daily life activities. Electrocardiogram (ECG) and siesmocardiogram (SCG) signals can be readily acquired from light-weight electrodes and accelerometers respectively, which can be employed to derive systolic time intervals (STI). For this purpose, automated and accurate annotation of the relevant peaks in these signals is required, which is challenging due to the inter-subject morphological variability and noise prone nature of SCG signal. In this paper, an approach is proposed to automatically annotate the desired peaks in SCG signal that are related to STI by utilizing the information of peak detected in the sliding template to narrow-down the search for the desired peak in actual SCG signal. Experimental validation of this approach performed in conventional/controlled supine and realistic/challenging seated conditions, containing over 5600 heart beat cycles shows good performance and robustness of the proposed approach in noisy conditions. Automated measurement of STI in wearable configuration can provide a quantified cardiac health index for long-term monitoring of patients, elderly people at risk and health-enthusiasts.
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| http://dx.doi.org/10.1038/srep37524 | DOI Listing |
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Article Synopsis
- The study aims to evaluate the effectiveness of seismocardiogram (SCG) and gyrocardiogram (GCG) in differentiating aortic stenosis (AS) patients from healthy individuals, discovering the best sensor placement for accurate classification.
- SCG and GCG data were collected from 15 participants and analyzed using both machine learning and deep learning techniques, yielding the highest accuracy from the Support Vector Machine (SVM) at specific heart locations.
- By combining SCG and GCG signals, accuracy improved significantly, reaching up to 97.2% with a single sensor, demonstrating a reliable method for classifying AS patients.
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