25 results on '"Spence S"'
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2. High Density Epicardial Mapping of the Pulmonary Vein–LA Junction in Humans: Insights into Mechanisms of Pulmonary Vein Arrhythmogenesis
3. Temporal stability of rotors and atrial activation patterns in persistent human atrial fibrillation: A high density epicardial mapping study.
4. Temporal stability of the atrial fibrillation cycle length in persistent human atrial fibrillation and its relationship to drivers: a high density epicardial mapping study.
5. A Study of the Atrial Fibrillatory Cycle Length Derived From the 12-Lead ECG: Longer Cycle Length Activity is Associated With More Advanced Electroanatomic Remodelling.
6. Impact of Epicardial Fat on Catheter–Tissue Contact Force During RF Ablation in an Ovine Model
7. Characterisation of Catheter–Tissue Contact Force During Epicardial RF Ablation in an Ovine Model
8. Absence of Gender-based Differences in Pulmonary Vein or Left Atrial Electrophysiology in Patients Undergoing SVT Ablation
9. Absence of Gender-based Differences in Pulmonary Vein or Left Atrial Electrophysiology in Patients Undergoing AF Ablation
10. Simultaneous High-density Epicardial Mapping: The Search for High Frequency Drivers Within the LA
11. High-Density Epicardial Mapping of Human Atrial Fibrillation: Spatial relationship between Complex Electrograms and Regions of High Dominant Frequency
12. Prevalence of Complex Fractionated Atrial Electrograms in Human Long Lasting Persistent Af. High Density Epicardial Mapping Demonstrates Significant Variability According to CFAE Definition
13. Atrial Electrical Remodelling Occurs Acutely in Response to Respiratory and Metabolic Acidoses—Implications for Atrial Fibrillation Susceptibility
14. Impact of Catheter-Tissue Contact Force on Epicardial Muscle and Fat During Radiofrequency Ablation in an Ovine Model.
15. Does Electrogram Morphology and Lesion Size Predict Catheter-tissue Contact Force During Epicardial RF Ablation in an Ovine Model.
16. Effect of Respiration on Catheter Movement and Stability During Cavotricuspid Isthmus Ablation for Atrial Flutter
17. Prospective Characterisation of Catheter–Tissue Contact Force at Different Anatomical Sites During Antral Pulmonary Vein Isolation
18. Characterisation of Activation Patterns at Sites of High Dominant Frequency During Human Persistent AF
19. Incidence, Clinical Features and Risk Factors Predisposing to Severe Oesophageal Injury from Transoesophageal Echocardiography During Catheter Ablation of Atrial Fibrillation: Characterising Oesophageal Injury of a Different Sort
20. Characterisation of Atrial Activation Patterns in Human Persistent Atrial Fibrillation: Multiple Wavelets or Focal Drivers?
21. Epicardial Wave Mapping in Human Persistent AF – The Search for AF Drivers
22. Effect of Respiration on Contact Force During Cavo-tricuspid Isthmus Ablation for Atrial Flutter
23. Effect of Respiration on Catheter–Tissue Contact Force During Pulmonary Vein Isolation for Atrial Fibrillation
24. Characterisation of Activation Patterns at Sites of Complex Fractionated Atrial Electrograms (CFAE) During Human Persistent AF: Active or Passive Mechanism?
25. Characterisation of Activation Patterns at Sites of Short Atrial Fibrillation Cycle Length (AFCL) During Human Persistent AF: Do They Identify Drivers?
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