Abstract
Photoplethysmographic (PPG) pulses contain information about cardiovascular parameters. In particular, blood pressure can be estimated using PPG pulse decomposition analysis, which assumes that a PPG pulse is composed of the original heart ejection blood wave and its reflections in arterial branchings. Among pulse decomposition wave functions that have been studied in the literature, Gaussian waves are the most successful ones. However, a more adequate pulse decomposition function could be found to improve blood pressure estimates. In this paper, we propose pulse decomposition analysis using hyperbolic secant (sech) waves and compare results with corresponding Gaussian wave decomposition. We analyze how the parameters of each of the two types of decomposition waves correlate with blood pressure. For this analysis, continuous blood pressure data and PPG data were acquired from ten healthy volunteers. The blood pressure of volunteers was varied by asking them to hold their breath for up to 60 s. The results suggested sech wave decomposition had higher accuracy in estimating blood pressure than the Gaussian function. Thus, sech wave decomposition should be considered as a more robust alternative to Gaussian wave pulse decomposition for blood pressure estimation models.
Highlights
IntroductionBlood pressure is one of the most important indicators of human health. Blood pressure is a measure of the pressure in the arteries, which depends on parameters such as cardiac output, blood vessel stiffness, and blood viscosity
Publisher’s Note: MDPI stays neutralBlood pressure is one of the most important indicators of human health
Multiple regression was performed between Pulse Decomposition Analysis (PDA) (Gaussian and sech) on plethysmographic data and the continuous blood pressure measurement data from the 10 subjects
Summary
Blood pressure is one of the most important indicators of human health. Blood pressure is a measure of the pressure in the arteries, which depends on parameters such as cardiac output, blood vessel stiffness, and blood viscosity. Pulse Decomposition Analysis (PDA) [6,7] is a non-invasive method of measuring blood pressure without a cuff. The pulse wave is usually measured non-invasively using a device called a photoplethysmograph (PPG). Sech may provide a better PDA for blood pressure decomposition of Figure 2 can be described by a set of three Gaussian waves, or by three estimation because it represents a possible solution to the Moens–Korteweg equation sech waves. We compared sech waves PDA for blood pressure estimation with the corresponding Gaussian waves PDA. We first describe pulse decomposition models used for both sech and Gaussian PDAs. we present the characteristics of the PPG PDA used for regression analysis using the experimental ground truth blood pressure readings
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