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1. The in vivo study of cardiac mechano-electric and mechano-mechanical coupling during heart development in zebrafish

2. Drivers of Sinoatrial Node Automaticity in Zebrafish: Comparison With Mechanisms of Mammalian Pacemaker Function

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3. Seeing the Light: The Use of Zebrafish for Optogenetic Studies of the Heart

4. Sinoatrial Node Structure, Mechanics, Electrophysiology and the Chronotropic Response to Stretch in Rabbit and Mouse

5. Ischemia Enhances the Acute Stretch-Induced Increase in Calcium Spark Rate in Ventricular Myocytes

6. Neurohumoral Control of Sinoatrial Node Activity and Heart Rate: Insight From Experimental Models and Findings From Humans

7. From Mice to Mainframes: Experimental Models for Investigation of the Intracardiac Nervous System

9. Cardiac Electrophysiological Effects of Light-Activated Chloride Channels

11. Guidelines for assessment of cardiac electrophysiology and arrhythmias in small animals

17. Cell-contact-mediated assembly of contractile airway smooth muscle rings

18. Abstract 10530: Stretch-Induced Arrhythmias Are Increased by Microtubule Detyrosination in a TRPA1 Dependent Manner in the Rabbit Heart

20. Mechano-arrhythmogenicity is enhanced during late repolarisation in ischemia and driven by a TRPA1-, calcium-, and reactive oxygen species-dependent mechanism

21. What keeps us ticking? Sinoatrial node mechano-sensitivity: the grandfather clock of cardiac rhythm

22. Physiology of Heart Rate

23. Heart Rate and Rhythm : Molecular Basis, Pharmacological Modulation and Clinical Implications

24. B-YIA2-01 MECHANO-ARRHYTHMOGENICITY IS ENHANCED IN LATE REPOLARISATION DURING ISCHEMIA AND DRIVEN BY A TRPA1-, CALCIUM-, AND REACTIVE OXYGEN SPECIES-DEPENDENT MECHANISM

26. Abstract 14409: TRPA1 Channels Are a Source of Calcium-driven Cellular Mechano-arrhythmogenicity

27. Abstract 14416: Mechano-arrhythmogenicity is Enhanced in Late Repolarisation During Acute Ischemia by a Calcium- and TRPA1-dependent Mechanism

28. The cardiac TRPA1 channel drives calcium-mediated mechano-arrhythmogenesis

29. Cardiac Mechano-Electric Coupling: Acute Effects of Mechanical Stimulation on Heart Rate and Rhythm

30. Contributors

31. Non-optogenetic approaches for leadless cardiac pacing: mechanically induced excitation for extracorporeal control of cardiac rhythm

33. Age-associated changes in electrical function of the zebrafish heart

34. The Zebrafish Heart: an Archetype for Neurocardiology

35. Zebrafish heart as a model to study the integrative autonomic control of pacemaker function

37. A beginner's guide to understanding and implementing the genetic modification of zebrafish

38. Physiological Implications of Myocardial Scar Structure

39. Effects of ageing on cardiac function in zebrafish

41. Mechanically-Induced Ventricular Arrhythmias during Acute Regional Ischemia

42. Cardiac mechano-electric coupling: a role in regulating normal function of the heart?: Figure 1

43. The importance of non-uniformities in mechano-electric coupling for ventricular arrhythmias

44. Cardiac resynchronisation therapy optimisation strategies

45. Primary Endpoints of the Biventricular Pacing After Cardiac Surgery Trial

46. Combining wet and dry research: experience with model development for cardiac mechano-electric structure-function studies

47. 3D histology reconstruction with external blockface reference. Full mouse heart, 600 sections

48. Serial histology and blockface images. Full mouse heart, 600 sections

49. Serial histology and blockface images. Full mouse heart, 600 sections

50. Mechanically Induced Ectopy via Stretch-Activated Cation-Nonselective Channels Is Caused by Local Tissue Deformation and Results in Ventricular Fibrillation if Triggered on the Repolarization Wave Edge (Commotio Cordis)