Multi-scale modeling of hypertension

Author

Veress, Ai ; Raymond, Gm ; Gullberg, GT ; Bassingthwaighte, JB

Author_Institution

Univ. of Washington, Seattle, WA, USA

fYear

2009

fDate

13-16 Sept. 2009

Firstpage

385

Lastpage

388

Abstract

The focus of this work is the coupling of a 1-D lumped parameter model representing the circulatory system to a 3-D finite element based left ventricle (LV) model in order to study the effects of mild hypertension on the cardiovascular system. A Finite Element LV model under normotensive loading (116/80 mmHg) was developed as well as a mild hypertension (165/90 3-D finite element mmHg) model. In both cases, coupled analysis was utilized so that at one diastolic time point and four systolic time points the values for the LV volumes and pressures were determined from the steady-state JSim solution. The normotensive model had an average first principal stress of 39.1KPa while the hypertensive case showed an increased value of 51.8KPa representing a 32.3% increase. A relatively mild increase in the afterload resulted in a pronounced increase in workload to maintain the same systemic flow.

Keywords

cardiovascular system; diseases; finite element analysis; medical diagnostic computing; physiological models; 1-D lumped parameter model; 3-D finite element model; JSim solution; cardiovascular system; coupled analysis; hypertension; normotensive model; pressure 39.1 kPa; Cardiovascular system; Circulatory system; Coupled mode analysis; Finite element methods; Heart; Hypertension; Impedance; Load modeling; Steady-state; Stress;

fLanguage

English

Publisher

ieee

Conference_Titel

Computers in Cardiology, 2009

Conference_Location

Park City, UT

ISSN

0276-6547

Print_ISBN

978-1-4244-7281-9

Electronic_ISBN

0276-6547

Type

conf

Filename

5445388