Identifying Model Inaccuracies and Solution Uncertainties in Noninvasive Activation-Based Imaging of Cardiac Excitation Using Convex Relaxation

Noninvasive imaging of cardiac electrical function has begun to move towards clinical adoption. Here, we consider one common formulation of the problem, in which the goal is to estimate the spatial distribution of electrical activation times during a cardiac cycle. We address the challenge of unders...

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Bibliographic Details
Published inIEEE transactions on medical imaging Vol. 33; no. 4; pp. 902 - 912
Main Authors Erem, Burak, van Dam, Peter M., Brooks, Dana H.
Format Journal Article
LanguageEnglish
Published United States IEEE 01.04.2014
The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Subjects
Activation time imaging
Adult
Algorithms
biomedical imaging
biomedical signal processing
convex relaxation
Electrocardiography
electrocardiography (ECG)
Heart
Heart - anatomy & histology
Heart - physiology
Humans
Image Processing, Computer-Assisted - methods
Imaging
inverse problems
Least squares method
Male
Mathematical models
Models, Cardiovascular
Optimization
Parameter sensitivity
Robustness
Sensitivity
Signal Processing, Computer-Assisted
Software
Software packages
Spatial distribution
Surface morphology
Surface waves
Uncertainty
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Summary:Noninvasive imaging of cardiac electrical function has begun to move towards clinical adoption. Here, we consider one common formulation of the problem, in which the goal is to estimate the spatial distribution of electrical activation times during a cardiac cycle. We address the challenge of understanding the robustness and uncertainty of solutions to this formulation. This formulation poses a nonconvex, nonlinear least squares optimization problem. We show that it can be relaxed to be convex, at the cost of some degree of physiological realism of the solution set, and that this relaxation can be used as a framework to study model inaccuracy and solution uncertainty. We present two examples, one using data from a healthy human subject and the other synthesized with the ECGSIM software package. In the first case, we consider uncertainty in the initial guess and regularization parameter. In the second case, we mimic the presence of an ischemic zone in the heart in a way which violates a model assumption. We show that the convex relaxation allows understanding of spatial distribution of parameter sensitivity in the first case, and identification of model violation in the second.
Bibliography:ObjectType-Article-1
SourceType-Scholarly Journals-1
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ISSN:0278-0062
1558-254X
DOI:10.1109/TMI.2014.2297952