Stroke volume estimation incorporating a nonlinear arterial system compliance model

D. S. Berger; T. Cui; John Li

Stroke volume estimation incorporating a nonlinear arterial system compliance model

D. S. Berger, T. Cui, John Li

School of Engineering, Biomedical Engineering

Research output: Contribution to conference › Paper

1 Scopus citations

Abstract

A frequently used model of the arterial system is the three-element modified Windkessel. The elements of the model are generally assumed to be constant, although it is known that the arterial compliance varies with pressure. A computer simulation of the modified Windkessel model using a pressure-dependent compliance was used to predict stroke volume. The results show a linear correlation between the predicted stroke volume and the measured stroke volume.

Original language	English (US)
Pages	137-138
Number of pages	2
State	Published - Dec 1 1989
Event	Proceedings of the Fifteenth Annual Northeast Bioengineering Conference - Boston, MA, USA Duration: Mar 27 1989 → Mar 28 1989

Other

Other	Proceedings of the Fifteenth Annual Northeast Bioengineering Conference
City	Boston, MA, USA
Period	3/27/89 → 3/28/89

All Science Journal Classification (ASJC) codes

Chemical Engineering(all)

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Berger, D. S., Cui, T., & Li, J. (1989). Stroke volume estimation incorporating a nonlinear arterial system compliance model. 137-138. Paper presented at Proceedings of the Fifteenth Annual Northeast Bioengineering Conference, Boston, MA, USA, .

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title = "Stroke volume estimation incorporating a nonlinear arterial system compliance model",

abstract = "A frequently used model of the arterial system is the three-element modified Windkessel. The elements of the model are generally assumed to be constant, although it is known that the arterial compliance varies with pressure. A computer simulation of the modified Windkessel model using a pressure-dependent compliance was used to predict stroke volume. The results show a linear correlation between the predicted stroke volume and the measured stroke volume.",

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N2 - A frequently used model of the arterial system is the three-element modified Windkessel. The elements of the model are generally assumed to be constant, although it is known that the arterial compliance varies with pressure. A computer simulation of the modified Windkessel model using a pressure-dependent compliance was used to predict stroke volume. The results show a linear correlation between the predicted stroke volume and the measured stroke volume.

AB - A frequently used model of the arterial system is the three-element modified Windkessel. The elements of the model are generally assumed to be constant, although it is known that the arterial compliance varies with pressure. A computer simulation of the modified Windkessel model using a pressure-dependent compliance was used to predict stroke volume. The results show a linear correlation between the predicted stroke volume and the measured stroke volume.

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