THE INFLUENCE OF CARDIOVASCULAR DYNAMIC COUPLING ON THE BLOOD PULSE WAVE PROPAGATION IN HUMAN BODY

Applied Mathematics and Mechanics (English Edition) ›› 1998, Vol. 19 ›› Issue (7): 601-614.

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THE INFLUENCE OF CARDIOVASCULAR DYNAMIC COUPLING ON THE BLOOD PULSE WAVE PROPAGATION IN HUMAN BODY

王英晓, 吴望一, 温功碧

Department of Mechanics and Ensineering Science, Peking University, Beijing 100871, P.R.China

收稿日期:1997-03-24 出版日期:1998-07-18 发布日期:1998-07-18
基金资助:
Project supported by the National Natural Science Foundation of China

THE INFLUENCE OF CARDIOVASCULAR DYNAMIC COUPLING ON THE BLOOD PULSE WAVE PROPAGATION IN HUMAN BODY

Wang Yingxiao, Wu Wangyi, Wen Gongbi

Department of Mechanics and Ensineering Science, Peking University, Beijing 100871, P.R.China

Received:1997-03-24 Online:1998-07-18 Published:1998-07-18
Supported by:
Project supported by the National Natural Science Foundation of China

摘要/Abstract

摘要： For the first time. the pressure and flow pulse wave propagation phenomenon isstudied in this paper on the basis of the cardiovascular dynamic coupling. E(l)-R modelis adopted for left ventricle and T-Y tube model for systemic arteries. Furthermore,impulse response method and Fourier analysis method are employed. After reasonablecardiovascular parameters and their value have been selected, the pressure and flowwaveforms are obtained at any poing along the systemic arteries. The results fitmeasured data well. In addition, the influences of cardiovascular parameters on pulsewave propagation are studied. The work is useful in practice.

Abstract: For the first time. the pressure and flow pulse wave propagation phenomenon isstudied in this paper on the basis of the cardiovascular dynamic coupling. E(l)-R modelis adopted for left ventricle and T-Y tube model for systemic arteries. Furthermore,impulse response method and Fourier analysis method are employed. After reasonablecardiovascular parameters and their value have been selected, the pressure and flowwaveforms are obtained at any poing along the systemic arteries. The results fitmeasured data well. In addition, the influences of cardiovascular parameters on pulsewave propagation are studied. The work is useful in practice.

王英晓;吴望一;温功碧. THE INFLUENCE OF CARDIOVASCULAR DYNAMIC COUPLING ON THE BLOOD PULSE WAVE PROPAGATION IN HUMAN BODY[J]. Applied Mathematics and Mechanics (English Edition), 1998, 19(7): 601-614.

Wang Yingxiao;Wu Wangyi;Wen Gongbi. THE INFLUENCE OF CARDIOVASCULAR DYNAMIC COUPLING ON THE BLOOD PULSE WAVE PROPAGATION IN HUMAN BODY[J]. Applied Mathematics and Mechanics (English Edition), 1998, 19(7): 601-614.

参考文献

[1] J. R. Womersley, Oscillatory flow is arteries: The constrained elastic tube as a method ofarterial flow and pulse transmission, Phys. Med. Biol., 2 (1957), 178～187.
[2] J. W. Lambert, On the nonlinearities of fluid flow in nonrigid tubes, J. Frank. Ins., 266, 2(1958), 83～102.
[3] V. L. Strettler, et al., Pulsatile pressure and flow through distensible vessels, Circ. Res.,13, 3 (1963), 3～10.
[4] M. Anliker, et al., Prediction of shape changes of propagation flow and pressure pulsesin human arteries, The Arterial System (1978), 15～34.
[5] W. Y. Wu and G. B. Wen, The Analysis of ventricle afterload and leftventricle/systemic-arterial coupling, Proceedings of the Fourth China-Japan-USA-SingaporeConference on Biomechanics, Ed. by Yang Guitong, et al., International AcademicPublishers, Beijing (1995), 23～28.
[6] W. Y. Wu and G. H. Dai, T-Y tube model of human ascending aortic input impedance,Applied Mathematics and Mechanics (English Ediation), 18, 12 (1997), 1125～1135.
[7] C. G. Caro, et al., The Mechanics of the Circulation, Oxford University Press (1978).
[8] M. G. Taylor, The input impedance of an assembly of randomly branching elastic tubes,J. Biophys., 6 (1966), 29～51.
[9] G. C. Little, et al., Description of LV pressure-volume relations by time-yaring elastanceand source resistance, Am. J. Physical, 253 (1987), H83～H90.
[10] W. C. Hunter, End-systolic pressure as a balance between opposing effects of ejection,Circ. Res., 64 (1989), 265～275.
[11] S. G. Shroff, et al., Evidence and quantification of left ventricular resistance, Am. J.Physiol., 249 (Heart Circ. Physiol. 18) (1983), H353.
[12] Wen Gongbi, Wu Wangyi and Sun Dongning, Left-ventricle/sytemic-arterial interaction, Proceedings of Cardiovascular Flow Conference, Guangdong, China(1994),8～14. (in Chinese).
[13] W.Y. Wu and G. B. Wen, The analysis of ventricle afterload and left-ventricle/systemic-arterial coupling, Proceeding of the Fourth China-Japan-USA-SingaporeConference on Biomechanics, Ed. by Yang Guitong, et al., International Academic Publishers, Beijing (1995),23～28.
[14] U. Gessner, Cardiovascular Fluid Dynamics, Vol.1 Ed, by D, H. Bergel, Academic Press,London, New York(1972).

THE INFLUENCE OF CARDIOVASCULAR DYNAMIC COUPLING ON THE BLOOD PULSE WAVE PROPAGATION IN HUMAN BODY

THE INFLUENCE OF CARDIOVASCULAR DYNAMIC COUPLING ON THE BLOOD PULSE WAVE PROPAGATION IN HUMAN BODY

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