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Noninvasive Hemoglobin Measurements With Photoplethysmography in Wrist

В. В. Лычагов, Vladimir Semenov, Еlena K. Volkova, Dmitrii Chernakov, Joongwoo Ahn, Justin Younghyun Kim

2023IEEE Access11 citationsDOIOpen Access PDF

Abstract

This paper describes the application of multiwavelength photoplethysmography (MW-PPG) in reflectance mode for noninvasive measurements of total hemoglobin concentration. Consumer wrist-wearable devices (smartwatches, wristbands) typically contain a photoplethysmography sensor operating in reflectance mode, as opposed to clinical pulse-oximetry sensors operating in transmittance mode. We assume that the generally accepted approach to the analysis of the transmittance-mode MW-PPG signal, based on the direct implementation of the Beer-Lambert law, is not applicable to the analysis of reflectance-mode MW-PPG signals. We propose that the shape of the MW-PPG signal carries information regarding the distribution of optical paths at different wavelengths within the tissue, which is crucial for the correct estimation of the absorption of light in the probe volume. We have developed and tested several machine-learning algorithms to analyze the reflectance-mode MW-PPG signal and to estimate the total hemoglobin concentration based on this analysis. To train and validate the algorithms, we collected a dataset of 840 MW-PPG signals measured from 170 volunteers by using a wrist-wearable PPG sensor. Three reference devices were used to label the data and test the performance of the developed algorithms: an invasive laboratory blood test, minimally invasive HemoCue Hb 201+, and noninvasive Masimo Radical-7 transmittance mode pulse-oximeter. The best performance achieved with the developed algorithm, mean absolute error MAE ≈ 12.6±1.7 g/L and correlation coefficient R ≈ 0.66±0.09, is comparable with the performance of the clinical noninvasive device.

Topics & Concepts

PhotoplethysmogramTransmittanceComputer scienceSIGNAL (programming language)Biomedical engineeringPulse oximetryReflectivityMaterials scienceComputer visionOpticsMedicineOptoelectronicsPhysicsAnesthesiaProgramming languageFilter (signal processing)Non-Invasive Vital Sign MonitoringHemodynamic Monitoring and TherapyHeart Rate Variability and Autonomic Control
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