Title :
Uncertainty quantification in medical image-based hemodynamic computations
Author :
Weijia Chen ; Itu, Lucian ; Sharma, Puneet ; Kamen, Ali
Author_Institution :
Imaging & Comput. Vision, Siemens Corp., Princeton, NJ, USA
fDate :
April 29 2014-May 2 2014
Abstract :
In this paper, we present a framework for uncertainty quantification in medical image-based patient-specific hemodynamic computations. To illustrate the overall methodology, we have used an aortic coarctation model for computing trans-stenotic pressure gradient. Variance-based Sobol sensitivity indices are used to evaluate the relative influence of the various uncertain measurements and model parameters on the global variance of the output. Next, a generalized Polynomial Chaos Expansion (PCE) method is used to quantify the uncertainties in the computed mean and peak pressure gradient in terms of a probability density functions and error bars over a full cardiac cycle.
Keywords :
biomedical MRI; cardiology; chaos; haemodynamics; medical image processing; polynomials; probability; PCE; aortic coarctation model; error bars; full cardiac cycle; generalized polynomial chaos expansion method; magnetic resonance imaging; medical image-based patient-specific hemodynamic computations; model parameters; pc-MRI; peak pressure gradient; probability density functions; trans-stenotic pressure gradient; uncertain measurements; uncertainty quantification; variance-based Sobol sensitivity indices; Computational modeling; Hemodynamics; Mathematical model; Polynomials; Random variables; Sensitivity; Uncertainty;
Conference_Titel :
Biomedical Imaging (ISBI), 2014 IEEE 11th International Symposium on
Conference_Location :
Beijing
DOI :
10.1109/ISBI.2014.6867901
