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Catheter ablation for paroxysmal and persistent atrial fibrillationCatheter ablation for paroxysmal and persistent atrial fibrillationDispersion of cardiac action potential duration and the initiation of re-entry: a computational study.Regional differences in APD restitution can initiate wavebreak and re-entry in cardiac tissue: a computational studyElectrophysiological Mechanisms of Gastrointestinal Arrhythmogenesis: Lessons from the HeartRotors as drivers of atrial fibrillation and targets for ablationMechanisms of ventricular arrhythmias: from molecular fluctuations to electrical turbulenceProspectively quantifying the propensity for atrial fibrillation: a mechanistic formulationGlobal alternans instability and its effect on non-linear wave propagation: dynamical Wenckebach block and self terminating spiral wavesModelling the heart as a communication system.Effects of Heterogeneous Diffuse Fibrosis on Arrhythmia Dynamics and Mechanism.Atrial Fibrillation: The Science behind Its DefianceElectrophysiological Perspectives on Hybrid Ablation of Atrial Fibrillation.Mapping Atrial Fibrillation: 2015 UpdateRate Control Strategy Elevated To Primary Treatment For Atrial Fibrillation: Has The Last Word Already Been Spoken?Three-dimensional cardiac computational modelling: methods, features and applicationsBachmann's bundle: does it play a role in atrial fibrillation?Archetype, adaptation and the mammalian heartAn off beat whale huntComparative aspects of the dual role of the human atrioventricular node.Lifetimes of epicardial rotors in panoramic optical maps of fibrillating swine ventricles.Panoramic optical mapping reveals continuous epicardial reentry during ventricular fibrillation in the isolated swine heart.Epicardial wavefronts arise from widely distributed transient sources during ventricular fibrillation in the isolated swine heart.Noninvasive characterization of epicardial activation in humans with diverse atrial fibrillation patterns.Translational research in atrial fibrillation: a quest for mechanistically based diagnosis and therapy.A Simplified Approach for Simultaneous Measurements of Wavefront Velocity and Curvature in the Heart Using Activation Times.Mathematical approaches to understanding and imaging atrial fibrillation: significance for mechanisms and managementSuppression of re-entrant and multifocal ventricular fibrillation by the late sodium current blocker ranolazineAtrial fibrillation.Spatial Resolution Requirements for Accurate Identification of Drivers of Atrial Fibrillation.Computational mapping identifies localized mechanisms for ablation of atrial fibrillation.Spiral-wave turbulence and its control in the presence of inhomogeneities in four mathematical models of cardiac tissue.Acute atrial arrhythmogenesis in murine hearts following enhanced extracellular Ca(2+) entry depends on intracellular Ca(2+) stores.Animal models of atrial flutter.Electrophysiological Changes of the Atrium in Patients with Lone Paroxysmal Atrial FibrillationAtrial Fibrillation Complicating Congestive Heart Failure: Electrophysiological Aspects And Its Deleterious Effect On Cardiac Resynchronization TherapyThe role of nonpharmacologic therapies for the treatment of atrial fibrillation.A contemporary review on the genetic basis of atrial fibrillation.Transmural characteristics of atrial fibrillation in canine models of structural and electrical atrial remodeling assessed by simultaneous epicardial and endocardial mappingRole of neural modulation in the pathophysiology of atrial fibrillation.
P2860
Q24200210-9057E95A-A0B3-4F8A-B477-7674E87EEEF9Q24243337-73964B74-BA42-44A4-AB55-BFDDFEB38E48Q24795922-3AB5E6B9-2066-454F-8D56-62920FB41278Q24814532-16A8D209-7C24-4BBA-A028-31D63FFDD699Q26744621-22E353C8-B596-4E1B-A416-1239CF91E760Q27006026-A10FFB8F-5C35-4486-BF12-61E44FC41D77Q27009543-203447BF-A8A4-43B6-8740-86F1D0EF5D79Q27313228-0444B2E2-1028-4A94-B2E5-57F7CAD6C1BEQ27331590-F0AD6DE3-F69E-4911-B89C-545B376657B3Q27345274-06E37EF6-521A-4D40-A5C8-335FCCBDD093Q27349919-02343E28-C63E-4B72-AF82-975105C129A8Q28072139-EB17BF32-5179-41AF-8AA2-7D5ACECF0264Q28073160-DDE5A21B-F478-4BC2-9BAA-2C477653D790Q28075512-9EAFDF2F-6759-40FE-B9A0-7A5A7F916494Q28081709-C96309A2-2A49-45F0-A3D5-FA772A0CC75BQ28084180-FBF64F0F-F2A1-48CA-A1EB-03DB5B2139FEQ28267641-B826BEF1-83C3-47AB-BA96-AD7E77E5242FQ28742273-C3359050-75F5-41AD-8F10-90DFEFDD4876Q28763022-03604D0E-9A20-4A92-9BCA-AB7A6887F788Q28769351-3EF2D80A-1E4B-4645-B3FE-95995FE8C949Q30478848-D70756BD-2E70-472B-BC57-B6DDB0AF8E03Q30478856-D4881772-CCBF-484E-95E7-70085B7163BFQ30482333-B6EEEA49-0478-493B-9517-D07D4B06E07DQ30497538-678301BD-B729-4A98-816F-4E6FBF820932Q30531060-831E0F07-5055-4F79-B1DB-4D3FCCDA1806Q30576921-BE90347A-F101-483F-9FA1-90E3B9D0875AQ30579851-C78C5D98-981E-412E-A525-C66A2C22D93AQ30622882-2CF23B99-6707-4B78-BFDC-2984771EA2F5Q30832817-27D925EF-8668-466C-98F9-85D9A3B85F8BQ30851198-00F551E6-089C-411F-B42F-556EDECAA2B5Q31103589-CCB6D8D4-71F3-450C-BDE3-176E816516D3Q33416014-002F8069-B182-4EBC-B70F-1BB8C3041ECDQ33514742-6D25AFD8-5CA4-42E0-AF63-5242D8EC40F8Q33571584-2235E3C9-B28C-4CD6-B502-B5DF3C08532AQ33585637-443E8DA6-2BD1-4195-A5B2-BF9317AF8781Q33585671-857DC24A-F4A5-431B-B8CE-20F16F807F18Q33598003-763D43D0-D595-4E70-9396-876D6E076895Q33732880-E2AF4023-CD8C-45E2-9EDD-08DF2120DC80Q33746539-47153A17-1E9C-4F35-960B-CCA48277BBA4Q33833632-E7243E5E-48F0-4F5F-B0CB-C844490E69DA
P2860
description
1964 nî lūn-bûn
@nan
1964年の論文
@ja
1964年学术文章
@wuu
1964年学术文章
@zh-cn
1964年学术文章
@zh-hans
1964年学术文章
@zh-my
1964年学术文章
@zh-sg
1964年學術文章
@yue
1964年學術文章
@zh
1964年學術文章
@zh-hant
name
A COMPUTER MODEL OF ATRIAL FIBRILLATION.
@en
A COMPUTER MODEL OF ATRIAL FIBRILLATION.
@nl
type
label
A COMPUTER MODEL OF ATRIAL FIBRILLATION.
@en
A COMPUTER MODEL OF ATRIAL FIBRILLATION.
@nl
prefLabel
A COMPUTER MODEL OF ATRIAL FIBRILLATION.
@en
A COMPUTER MODEL OF ATRIAL FIBRILLATION.
@nl
P2093
P1476
A COMPUTER MODEL OF ATRIAL FIBRILLATION.
@en
P2093
J A ABILDSKOV
W C RHEINBOLDT
P304
P356
10.1016/0002-8703(64)90371-0
P407
P577
1964-02-01T00:00:00Z