Publication

Development of a numerical simulation model of the cardiovascular system

Geertsema, AA., Rakhorst, G., Mihaylov, D., Blanksma, PK. & Verkerke, GJ., Dec-1997, In : ARTIFICIAL ORGANS. 21, 12, p. 1297-1301 5 p.

Research output: Contribution to journalArticleAcademicpeer-review

APA

Geertsema, AA., Rakhorst, G., Mihaylov, D., Blanksma, PK., & Verkerke, GJ. (1997). Development of a numerical simulation model of the cardiovascular system. ARTIFICIAL ORGANS, 21(12), 1297-1301.

Author

Geertsema, AA ; Rakhorst, G ; Mihaylov, D ; Blanksma, PK ; Verkerke, GJ. / Development of a numerical simulation model of the cardiovascular system. In: ARTIFICIAL ORGANS. 1997 ; Vol. 21, No. 12. pp. 1297-1301.

Harvard

Geertsema, AA, Rakhorst, G, Mihaylov, D, Blanksma, PK & Verkerke, GJ 1997, 'Development of a numerical simulation model of the cardiovascular system' ARTIFICIAL ORGANS, vol. 21, no. 12, pp. 1297-1301.

Standard

Development of a numerical simulation model of the cardiovascular system. / Geertsema, AA; Rakhorst, G; Mihaylov, D; Blanksma, PK; Verkerke, GJ.

In: ARTIFICIAL ORGANS, Vol. 21, No. 12, 12.1997, p. 1297-1301.

Research output: Contribution to journalArticleAcademicpeer-review

Vancouver

Geertsema AA, Rakhorst G, Mihaylov D, Blanksma PK, Verkerke GJ. Development of a numerical simulation model of the cardiovascular system. ARTIFICIAL ORGANS. 1997 Dec;21(12):1297-1301.


BibTeX

@article{b9954aa07a8c4df8ab41435f71b7e52c,
title = "Development of a numerical simulation model of the cardiovascular system",
abstract = "A numerical simulation model of the cardiovascular system has been developed. It consists of a model of the left atrium, the left ventricle, the coronary vascular system, the aorta, the arterial system, and the venous system. The input of the complete model is the elastance (pressure/volume ratio) developed by the left ventricle. The shape of this elastance is constant in different circumstances. Left ventricular (LV) myocardial oxygen consumption and the amount of oxygen offered to the left ventricle can be calculated with the model. The model has been validated using data from a patient suffering from coronary artery disease. The measured clinical hemodynamical waveforms could be fitted to those generated by the model. With the numerical simulation model, it is possible to predict the functioning of the left ventricle under different circumstances. This makes it possible to study in vitro various pathological clinical situations.",
keywords = "cardiovascular system, left ventricle, numerical model, simulation, pathological, hemodynamical waveforms, LEFT-VENTRICLE, ARTERIAL",
author = "AA Geertsema and G Rakhorst and D Mihaylov and PK Blanksma and GJ Verkerke",
year = "1997",
month = "12",
language = "English",
volume = "21",
pages = "1297--1301",
journal = "ARTIFICIAL ORGANS",
issn = "0160-564X",
publisher = "WILEY",
number = "12",

}

RIS

TY - JOUR

T1 - Development of a numerical simulation model of the cardiovascular system

AU - Geertsema, AA

AU - Rakhorst, G

AU - Mihaylov, D

AU - Blanksma, PK

AU - Verkerke, GJ

PY - 1997/12

Y1 - 1997/12

N2 - A numerical simulation model of the cardiovascular system has been developed. It consists of a model of the left atrium, the left ventricle, the coronary vascular system, the aorta, the arterial system, and the venous system. The input of the complete model is the elastance (pressure/volume ratio) developed by the left ventricle. The shape of this elastance is constant in different circumstances. Left ventricular (LV) myocardial oxygen consumption and the amount of oxygen offered to the left ventricle can be calculated with the model. The model has been validated using data from a patient suffering from coronary artery disease. The measured clinical hemodynamical waveforms could be fitted to those generated by the model. With the numerical simulation model, it is possible to predict the functioning of the left ventricle under different circumstances. This makes it possible to study in vitro various pathological clinical situations.

AB - A numerical simulation model of the cardiovascular system has been developed. It consists of a model of the left atrium, the left ventricle, the coronary vascular system, the aorta, the arterial system, and the venous system. The input of the complete model is the elastance (pressure/volume ratio) developed by the left ventricle. The shape of this elastance is constant in different circumstances. Left ventricular (LV) myocardial oxygen consumption and the amount of oxygen offered to the left ventricle can be calculated with the model. The model has been validated using data from a patient suffering from coronary artery disease. The measured clinical hemodynamical waveforms could be fitted to those generated by the model. With the numerical simulation model, it is possible to predict the functioning of the left ventricle under different circumstances. This makes it possible to study in vitro various pathological clinical situations.

KW - cardiovascular system

KW - left ventricle

KW - numerical model

KW - simulation

KW - pathological

KW - hemodynamical waveforms

KW - LEFT-VENTRICLE

KW - ARTERIAL

M3 - Article

VL - 21

SP - 1297

EP - 1301

JO - ARTIFICIAL ORGANS

JF - ARTIFICIAL ORGANS

SN - 0160-564X

IS - 12

ER -

ID: 6537139