| scholarly article | Q13442814 |
| P2093 | author name string | Rosenbaum DS | |
| Pastore JM | |||
| P433 | issue | 12 | |
| P304 | page(s) | 1157-1163 | |
| P577 | publication date | 2000-12-01 | |
| P1433 | published in | Circulation Research | Q2599020 |
| P1476 | title | Role of structural barriers in the mechanism of alternans-induced reentry | |
| P478 | volume | 87 |
| Q36472403 | A class of Monte-Carlo-based statistical algorithms for efficient detection of repolarization alternans. |
| Q40775828 | A mathematical model of the unidirectional block caused by the pulmonary veins for anatomically induced atrial reentry |
| Q35141865 | A novel lead configuration for optimal spatio-temporal detection of intracardiac repolarization alternans. |
| Q37353251 | A novel method for determining the phase of T-wave alternans: diagnostic and therapeutic implications |
| Q37576148 | A translational approach to probe the proarrhythmic potential of cardiac alternans: a reversible overture to arrhythmogenesis? |
| Q35613635 | Action potential duration dispersion and alternans in simulated heterogeneous cardiac tissue with a structural barrier |
| Q37826594 | Alternans and arrhythmias: from cell to heart |
| Q51627036 | Alternans and the influence of ionic channel modifications: Cardiac three-dimensional simulations and one-dimensional numerical bifurcation analysis. |
| Q44117438 | Alternans of action potential duration and amplitude in rabbits with left ventricular dysfunction following myocardial infarction |
| Q42620762 | Association among intracardiac T-wave alternans, ischemia, and spontaneous ventricular arrhythmias after coronary artery occlusion in a canine model |
| Q27319107 | Atrial SERCA2a Overexpression Has No Affect on Cardiac Alternans but Promotes Arrhythmogenic SR Ca2+ Triggers |
| Q38086408 | Bifurcation theory and cardiac arrhythmias. |
| Q35095089 | Calcium and arrhythmogenesis |
| Q30476969 | Calcium instabilities in mammalian cardiomyocyte networks. |
| Q90739959 | Cardiac Alternans: Mechanisms and Clinical Utility in Arrhythmia Prevention |
| Q44523412 | Catecholamine-provoked microvoltage T wave alternans in genotyped long QT syndrome |
| Q37640381 | Cellular mechanism of cardiac alternans: an unresolved chicken or egg problem |
| Q35708176 | Comparison of the IKr blockers moxifloxacin, dofetilide and E-4031 in five screening models of pro-arrhythmia reveals lack of specificity of isolated cardiomyocytes |
| Q57161239 | Computational Modeling of Electrophysiology and Pharmacotherapy of Atrial Fibrillation: Recent Advances and Future Challenges |
| Q35118666 | Control of Action Potential Duration Alternans in Canine Cardiac Ventricular Tissue |
| Q51944056 | Control of electrical alternans in canine cardiac purkinje fibers. |
| Q35545558 | Dynamic origin of spatially discordant alternans in cardiac tissue |
| Q79208467 | Effect of Long-Term Beta-Blocker Therapy on Microvolt-Level T-Wave Alternans in Association With the Improvement of the Cardiac Sympathetic Nervous System and Systolic Function in Patients With Non-Ischemic Heart Disease |
| Q36778326 | Effects of pacing site and stimulation history on alternans dynamics and the development of complex spatiotemporal patterns in cardiac tissue |
| Q36997468 | Eight (or more) kinds of alternans |
| Q40283029 | Electrical alternans and hemodynamics in the anesthetized guinea pig can discriminate the cardiac safety of antidepressants. |
| Q37377073 | Explaining the clinical manifestations of T wave alternans in patients at risk for sudden cardiac death |
| Q47761939 | George Ralph Mines (1886-1914): the dawn of cardiac nonlinear dynamics |
| Q37393007 | Heart failure enhances susceptibility to arrhythmogenic cardiac alternans |
| Q38944914 | Increased Nonalternans Repolarization Variability Precedes Ventricular Tachycardia Onset in Patients with Implantable Defibrillators. |
| Q46446978 | Increased susceptibility of spontaneously hypertensive rats to ventricular tachyarrhythmias in early hypertension. |
| Q73463402 | Introduction: Mapping and control of complex cardiac arrhythmias |
| Q35037539 | Local calcium gradients during excitation-contraction coupling and alternans in atrial myocytes |
| Q42636318 | Maintenance of intercellular coupling by the antiarrhythmic peptide rotigaptide suppresses arrhythmogenic discordant alternans |
| Q37025197 | Mechanisms and potential therapeutic targets for ventricular arrhythmias associated with impaired cardiac calcium cycling |
| Q60310162 | Mechanistic insight into spontaneous transition from cellular alternans to arrhythmia-A simulation study |
| Q36807736 | Moderate Hypothermia (33 °C) Decreases the Susceptibility to Pacing-Induced Ventricular Fibrillation Compared with Severe Hypothermia (30 °C) by Attenuating Spatially Discordant Alternans in Isolated Rabbit Hearts |
| Q47870119 | Multiple mechanisms of spiral wave breakup in a model of cardiac electrical activity |
| Q35053106 | Myocardial electrotonic response to submaximal exercise in dogs with healed myocardial infarctions: evidence for β-adrenoceptor mediated enhanced coupling during exercise testing |
| Q47317464 | Nonlinear diffusion and thermo-electric coupling in a two-variable model of cardiac action potential. |
| Q37724865 | Optical mapping of sarcoplasmic reticulum Ca2+ in the intact heart: ryanodine receptor refractoriness during alternans and fibrillation |
| Q34727604 | Pathophysiological basis and clinical application of T-wave alternans |
| Q36836435 | Repolarization Alternans and Ventricular Arrhythmia in a Repaired Tetralogy of Fallot Animal Model. |
| Q52015558 | Resetting and annihilation of reentrant activity in a model of a one-dimensional loop of ventricular tissue. |
| Q46954071 | Role of risk stratification after myocardial infarction |
| Q35762284 | Role of substrate and triggers in the genesis of cardiac alternans, from the myocyte to the whole heart: implications for therapy |
| Q87346107 | Scar tissue and microvolt T-wave alternans |
| Q64991936 | Should We Be Ablating the Kidneys or the Heart to Prevent Arrhythmias? |
| Q46608598 | Simulated microgravity induces microvolt T wave alternans. |
| Q44542211 | Spatial heterogeneity of action potential alternans during global ischemia in the rabbit heart |
| Q46788961 | Spatially discordant alternans in cardiomyocyte monolayers. |
| Q39820218 | Spatiotemporal dynamics of calcium-driven cardiac alternans |
| Q47586162 | Stochastic Pacing Inhibits Spatially Discordant Cardiac Alternans |
| Q37177305 | Sudden cardiac arrest in patients with preserved left ventricular systolic function: a clinical dilemma |
| Q35122125 | T Wave Alternans: A Marker of Myocardial Instability |
| Q41388982 | T-Wave Alternans Is Linked to Microvascular Obstruction and to Recurrent Coronary Ischemia After Myocardial Infarction |
| Q37148999 | T-wave alternans as an arrhythmic risk stratifier: state of the art |
| Q35198959 | T-wave alternans for risk stratification and prevention of sudden cardiac death |
| Q55200190 | T-wave alternans in long QT syndrome. |
| Q37480953 | Targeted SERCA2a gene expression identifies molecular mechanism and therapeutic target for arrhythmogenic cardiac alternans |
| Q36511923 | Targeted sarcoplasmic reticulum Ca2+ ATPase 2a gene delivery to restore electrical stability in the failing heart |
| Q37229189 | The impact of varying autonomic states on the dynamic beat-to-beat QT-RR and QT-TQ interval relationships |
| Q37172611 | The link between repolarisation alternans and ventricular arrhythmia: does the cellular phenomenon extend to the clinical problem? |
| Q34691870 | The role of mitochondria for the regulation of cardiac alternans |
| Q51615634 | Ventricular repolarization time, location of pacing stimulus and current pulse amplitude conspire to determine arrhythmogenicity in mice. |
| Q46339927 | Vulnerability to re-entry in simulated two-dimensional cardiac tissue: effects of electrical restitution and stimulation sequence |
| Q80042866 | Vulnerability to ventricular arrhythmias [corrected] and heterogeneity of action potential duration in normal rats |
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