Generalized channel separation algorithms for accurate camera-based multi-wavelength PTT and BP estimation.
Gašper SlapničarWenjin WangMitja LuštrekPublished in: Biomedical optics express (2024)
Single-site multi-wavelength (MW) pulse transit time (PTT) measurement was recently proposed using contact sensors with sequential illumination. It leverages different penetration depths of light to measure the traversal of a cardiac pulse between skin layers. This enabled continuous single-site MW blood pressure (BP) monitoring, but faces challenges like subtle skin compression, which importantly influences the PPG morphology and subsequent PTT. We extended this idea to contact-free camera-based sensing and identified the major challenge of color channel overlap, which causes the signals obtained from a consumer RGB camera to be a mixture of responses in different wavelengths, thus not allowing for meaningful PTT measurement. To address this, we propose novel camera-independent data-driven channel separation algorithms based on constrained genetic algorithms. We systematically validated the algorithms on camera recordings of palms and corresponding ground-truth BP measurements of 13 subjects in two different scenarios, rest and activity. We compared the proposed algorithms against established blind source separation methods and against previous camera-specific physics-based method, showing good performance in both PTT reconstruction and BP estimation using a Random Forest regressor. The best-performing algorithm achieved mean absolute errors (MAEs) of 3.48 and 2.61 mmHg for systolic and diastolic BP in a leave-one-subject-out experiment with personalization, solidifying the proposed algorithms as enablers of novel contact-free MW PTT and BP estimation.
Keyphrases
- machine learning
- blood pressure
- deep learning
- convolutional neural network
- high speed
- left ventricular
- climate change
- hypertensive patients
- heart failure
- liquid chromatography
- heart rate
- emergency department
- high resolution
- adipose tissue
- healthcare
- mass spectrometry
- gene expression
- metabolic syndrome
- health information
- insulin resistance
- dna methylation
- ejection fraction
- glycemic control