ECG imaging of ventricular tachycardia: evaluation against simultaneous non-contact mapping and CMR-derived grey zone

ECG imaging is an emerging technology for the reconstruction of cardiac electric activity from non-invasively measured body surface potential maps. In this case report, we present the first evaluation of transmurally imaged activation times against endocardially reconstructed isochrones for a case o...

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Bibliographic Details
Published in:Medical & biological engineering & computing 2017-06, Vol.55 (6), p.979-990
Main Authors: Schulze, Walther H. W., Chen, Zhong, Relan, Jatin, Potyagaylo, Danila, Krueger, Martin W., Karim, Rashed, Sohal, Manav, Shetty, Anoop, Ma, YingLiang, Ayache, Nicholas, Sermesant, Maxime, Delingette, Herve, Bostock, Julian, Razavi, Reza, Rhode, Kawal S., Rinaldi, Christopher A., Dössel, Olaf
Format: Article
Language:English
Subjects:
Activation
Activation analysis
Biomedical and Life Sciences
Biomedical Engineering and Bioengineering
Biomedicine
Body Surface Potential Mapping - methods
Cardiac arrhythmia
Catheter Ablation - methods
Catheters
Computer Applications
Computer Science
EKG
Electric contacts
Electrocardiography
Electrophysiologic Techniques, Cardiac - methods
Evaluation
Gadolinium
Heart
Heart diseases
Heart Ventricles - physiopathology
Human Physiology
Humans
Imaging
Localization
Magnetic Resonance Imaging - methods
Mapping
Mathematical models
Medical Imaging
Medical instruments
Original Article
Qualitative analysis
Radiology
Reconstruction
Regularization
Smoothing
Tachycardia
Tachycardia, Ventricular - diagnosis
Tachycardia, Ventricular - physiopathology
Thorax
Thorax - physiology
Ventricle
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Summary:ECG imaging is an emerging technology for the reconstruction of cardiac electric activity from non-invasively measured body surface potential maps. In this case report, we present the first evaluation of transmurally imaged activation times against endocardially reconstructed isochrones for a case of sustained monomorphic ventricular tachycardia (VT). Computer models of the thorax and whole heart were produced from MR images. A recently published approach was applied to facilitate electrode localization in the catheter laboratory, which allows for the acquisition of body surface potential maps while performing non-contact mapping for the reconstruction of local activation times. ECG imaging was then realized using Tikhonov regularization with spatio-temporal smoothing as proposed by Huiskamp and Greensite and further with the spline-based approach by Erem et al. Activation times were computed from transmurally reconstructed transmembrane voltages. The results showed good qualitative agreement between the non-invasively and invasively reconstructed activation times. Also, low amplitudes in the imaged transmembrane voltages were found to correlate with volumes of scar and grey zone in delayed gadolinium enhancement cardiac MR. The study underlines the ability of ECG imaging to produce activation times of ventricular electric activity—and to represent effects of scar tissue in the imaged transmembrane voltages.
ISSN:0140-0118
1741-0444
DOI:10.1007/s11517-016-1566-x