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Non-contact imaging of peripheral hemodynamics during cognitive and psychological stressors

Daniel McDuff, Izumi Nishidate, Kazuya Nakano, Hideaki Haneishi, Yuta Aoki, Chihiro Tanabe, Kyuichi Niizeki, Yoshihisa Aizu

2020Scientific Reports33 citationsDOIOpen Access PDF

Abstract

Peripheral hemodynamics, measured via the blood volume pulse and vasomotion, provide a valuable way of monitoring physiological state. Camera imaging-based systems can be used to measure these peripheral signals without contact with the body, at distances of multiple meters. While researchers have paid attention to non-contact imaging photoplethysmography, the study of peripheral hemodynamics and the effect of autonomic nervous system activity on these signals has received less attention. Using a method, based on a tissue-like model of the skin, we extract melanin [Formula: see text] and hemoglobin [Formula: see text] concentrations from videos of the hand and face and show that significant decreases in peripheral pulse signal power (by 36% ± 29%) and vasomotion signal power (by 50% ± 26%) occur during periods of cognitive and psychological stress. Via three experiments we show that similar results are achieved across different stimuli and regions of skin (face and hand). While changes in peripheral pulse and vasomotion power were significant the changes in pulse rate variability were less consistent across subjects and tasks.

Topics & Concepts

VasomotionPhotoplethysmogramHemodynamicsPulse (music)PeripheralArtificial intelligenceComputer scienceMedicineBiomedical engineeringInternal medicineComputer visionVasodilationTelecommunicationsFilter (signal processing)DetectorNon-Invasive Vital Sign MonitoringHeart Rate Variability and Autonomic ControlHemodynamic Monitoring and Therapy
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