Your search keyword '"Daiyuan Song"' showing total 2 results

1. Determination of aortic pulse transit time based on waveform decomposition of radial pressure wave

Author

Wenyan Liu, Daiyuan Song, Yang Yao, Lin Qi, Liling Hao, Jun Yang, Hongxia Ning, and Lisheng Xu

Subjects

Medicine, Science

Abstract

Abstract Carotid-femoral pulse transit time (cfPTT) is a widely accepted measure of central arterial stiffness. The cfPTT is commonly calculated from two synchronized pressure waves. However, measurement of synchronized pressure waves is technically challenging. In this paper, a method of decomposing the radial pressure wave is proposed for estimating cfPTT. From the radial pressure wave alone, the pressure wave can be decomposed into forward and backward waves by fitting a double triangular flow wave. The first zero point of the second derivative of the radial pressure wave and the peak of the dicrotic segment of radial pressure wave are used as the peaks of the fitted double triangular flow wave. The correlation coefficient between the measured wave and the estimated forward and backward waves based on the decomposition of the radial pressure wave was 0.98 and 0.75, respectively. Then from the backward wave, cfPTT can be estimated. Because it has been verified that the time lag estimation based on of backward wave has strong correlation with the measured cfPTT. The corresponding regression function between the time lag estimation of backward wave and measured cfPTT is y = 0.96x + 5.50 (r = 0.77; p

Published

2021

2. Determination of aortic pulse transit time based on waveform decomposition of radial pressure wave

Author

Daiyuan Song, Liling Hao, Lisheng Xu, Yang Yao, Wenyan Liu, Jun Yang, Hongxia Ning, and Lin Qi

Subjects

Adult, Male, Correlation coefficient, Science, Zero-point energy, Blood Pressure, Pulse Wave Analysis, Predictive markers, Measure (mathematics), Article, Vascular Stiffness, Humans, Waveform, Arterial Pressure, Aorta, Second derivative, Physics, Multidisciplinary, Arterial stiffening, Mechanics, Decomposition, Healthy Volunteers, Risk factors, Flow (mathematics), Radial Artery, Aortic pressure, Medicine, Female, Biomedical engineering

Abstract

Carotid-femoral pulse transit time (cfPTT) is a widely accepted measure of central arterial stiffness. The cfPTT is commonly calculated from two synchronized pressure waves. However, measurement of synchronized pressure waves is technically challenging. In this paper, a method of decomposing the radial pressure wave is proposed for estimating cfPTT. From the radial pressure wave alone, the pressure wave can be decomposed into forward and backward waves by fitting a double triangular flow wave. The first zero point of the second derivative of the radial pressure wave and the peak of the dicrotic segment of radial pressure wave are used as the peaks of the fitted double triangular flow wave. The correlation coefficient between the measured wave and the estimated forward and backward waves based on the decomposition of the radial pressure wave was 0.98 and 0.75, respectively. Then from the backward wave, cfPTT can be estimated. Because it has been verified that the time lag estimation based on of backward wave has strong correlation with the measured cfPTT. The corresponding regression function between the time lag estimation of backward wave and measured cfPTT is y = 0.96x + 5.50 (r = 0.77; p

Published

2021