Feasibility Research of Pulse Wave Decomposition Based on Lognormal Function

doi:10.12068/j.issn.1005-3026.2019.12.005

Abstract

Abstract: The feasibility of decomposing pulse wave was evaluated by constructing the blood flow wave based on the Lognormal function. Twenty-three healthy subjects were studied and their noninvasive aortic pulse waves were acquired by using a noninvasive aortic pulse analyzer (AtCor Medical SphygmoCor). The Lognormal function and the triangle function are applied respectively for constructing the blood flow wave， and aortic pressure waveform is decomposed into forward and backward waves by means of the impedance analysis. The reflection parameters including reflection amplitude (RM_log， RM_tri) and reflection index (RI_log， RI_tri) are then calculated. Meanwhile， these parameters are analyzed by the Bland-Altman method and the regression analysis. The estimation of RM and RI has high consistency for these two methods， and their regression equations are RM_log=1.009RM_tri-0.007 and RI_log=1.008RI_tri-0.004， respectively. RM_log has significantly positive correlation with RM_tri (r=0.999; P<0.001)， and RI_log has significantly positive correlation with RI_tri(r=0.999; P<0.001). Therefore， it is feasible to decompose the aortic pressure waveform based on the Lognormal function and the performance is better than that of the triangle function.

Key words: pulse wave, wave decomposition, impedance analysis, regression analysis

CLC Number:

TP274

WANG Lu， CHEN Xue-wei， HAO Li-ling， XU Li-sheng. Feasibility Research of Pulse Wave Decomposition Based on Lognormal Function[J]. Journal of Northeastern University Natural Science, 2019, 40(12): 1695-1699.

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