Model of reentrant ventricular tachycardia based on infarct border zone geometry predicts reentrant circuit features as determined by activation mapping
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Towards predictive modelling of the electrophysiology of the heart.Model of unidirectional block formation leading to reentrant ventricular tachycardia in the infarct border zone of postinfarction canine hearts.Techniques for automated local activation time annotation and conduction velocity estimation in cardiac mapping.Cardiac expression of skeletal muscle sodium channels increases longitudinal conduction velocity in the canine 1-week myocardial infarction.Detection of the diastolic pathway, circuit morphology, and inducibility of human postinfarction ventricular tachycardia from mapping in sinus rhythm.Feasibility of image-based simulation to estimate ablation target in human ventricular arrhythmia.High-Resolution Mapping of Postinfarction Reentrant Ventricular Tachycardia: Electrophysiological Characterization of the Circuit.Cardiovascular magnetic resonance guided electrophysiology studies.Ventricular fibrillation: triggers, mechanisms and therapies.Virtual electrophysiological study in a 3-dimensional cardiac magnetic resonance imaging model of porcine myocardial infarction.MRI-Guided Electrophysiology Intervention.Reprint of 'Model of unidirectional block formation leading to reentrant ventricular tachycardia in the infarct border zone of postinfarction canine hearts'.Limitations and Challenges in Mapping Ventricular Tachycardia: New Technologies and Future Directions.Slow conduction through an arc of block: A basis for arrhythmia formation postmyocardial infarction.Slow antegrade excitation and delayed retrograde activation through an "inexcitable zone": A basis for arrhythmia formation in infarcted myocardium ex vivo.Head-to-head comparison of contrast-enhanced magnetic resonance imaging and electroanatomical voltage mapping to assess post-infarct scar characteristics in patients with ventricular tachycardias: real-time image integration and reversed registratioSource-Sink Mismatch Causing Functional Conduction Block in Re-Entrant Ventricular Tachycardia.Biophysical Modeling Predicts Ventricular Tachycardia Inducibility and Circuit Morphology: A Combined Clinical Validation and Computer Modeling Approach.The relationship between transmurality of ischemic scars and the heart rate of ventricular tachycardia.
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P2860
Model of reentrant ventricular tachycardia based on infarct border zone geometry predicts reentrant circuit features as determined by activation mapping
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article científic
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article scientifique
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articolo scientifico
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artigo científico
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bilimsel makale
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scientific article published on 04 May 2007
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vedecký článok
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vetenskaplig artikel
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videnskabelig artikel
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vědecký článek
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name
Model of reentrant ventricular ...... termined by activation mapping
@en
Model of reentrant ventricular ...... ermined by activation mapping.
@nl
type
label
Model of reentrant ventricular ...... termined by activation mapping
@en
Model of reentrant ventricular ...... ermined by activation mapping.
@nl
prefLabel
Model of reentrant ventricular ...... termined by activation mapping
@en
Model of reentrant ventricular ...... ermined by activation mapping.
@nl
P2093
P2860
P1433
P1476
Model of reentrant ventricular ...... termined by activation mapping
@en
P2093
Andrew L Wit
Bruce Hopenfeld
Daniel Cervantes
Edward J Ciaccio
Elliot R McVeigh
Hasan Garan
Hiroshi Ashikaga
James Coromilas
Nicholas S Peters
Riyaz A Kaba
P2860
P304
P356
10.1016/J.HRTHM.2007.04.015
P577
2007-05-04T00:00:00Z