Model-based parameter estimation using cardiovascular response! to orthostatic stress

Author

Heldt, T. ; Shim, Eb ; Kamm, RD ; Mark, R.G.

Author_Institution

MIT, Cambridge, MA, USA

fYear

2001

fDate

2001

Firstpage

337

Lastpage

340

Abstract

This paper presents a cardiovascular model that is capable of simulating the short-term (≲ 3 min) transient hemodynamic response to gravitational stress and a gradient-based optimization method that allows for the automated estimation of model parameters from simulated or experimental data. We perform a sensitivity analysis of the transient heart rate response to determine which parameters of the model impact the heart rate dynamics significantly. We subsequently include only those parameters in the estimation routine that impact the transient heart rate dynamics substantially. We applied the estimation algorithm to both simulated and real data and showed that restriction to the 20 most important parameters does not impair our ability to match the data

Keywords

aerospace biophysics; cardiovascular system; gradient methods; gravity; haemodynamics; medical computing; optimisation; parameter estimation; physiological models; sensitivity analysis; transient response; 3 min; automated parameter estimation algorithm; cardiovascular response; data matching; gradient-based optimization method; gravitational stress; heart rate dynamics; model-based parameter estimation; orthostatic stress; sensitivity analysis; short-term transient heinodynamic response; transient heart rate response; Blood; Cardiology; Cardiovascular system; Computational modeling; Heart rate; Hemodynamics; Parameter estimation; Sensitivity analysis; Stress; Transient analysis;

fLanguage

English

Publisher

ieee

Conference_Titel

Computers in Cardiology 2001

Conference_Location

Rotterdam

ISSN

0276-6547

Print_ISBN

0-7803-7266-2

Type

conf

DOI

10.1109/CIC.2001.977661

Filename

977661