Reviews the basic science, engineering technology, and clinical practice of cardiac bioelectric therapy

Discusses novel arrhythmia therapies such as leadless pacing, low energy defibrillation, machine learning, and high-resolution mapping

Highlights breakthrough technologies for scientific and clinical investigation of heart rhythm disorders

Provides an in-depth examination of implantable devices technology and security

Part I. History.- Chapter 1. History of Cardiac Pacing.- Chapter 2. History of Defibrillation.- Chapter 3. History of Cardiac Mapping.- Chapter 4. History of Optical Mapping.- Part II. Theory of Electric Stimulation and Defibrillation.- Chapter 5. The Bidomain Theory of Pacing.- Chapter 6. Bidomain Theory of Defibrillation.- Chapter 7. The Generalized Activating Function.- Part III. Electrode Mapping and Defibrillation.- Chapter 8. Extracellular Mapping of Arrhythmia.- Chapter 9. Critical Points and the Upper Limit of Vulnerability for Defibrillation.- Chapter 10. Inverse Potential Methods of Cardiac Mapping.- Chapter 11. Monophasic Action Potential.- Part IV. Optical Mapping of Stimulation and Defibrillation.- Chapter 12. Mechanisms of Isolated Cell Stimulation.- Chapter 13. The Role of Microscopic Tissue Structure in Defibrillation.- Chapter 14. Virtual Electrode Theory of Pacing.- Chapter 15. The Virtual Electrode Hypothesis of Defibrillation.- Chapter 16. Simulataneous Optical andElectrical Recording.- Chapter 17. Advanced 3D Optical Mapping.- Chapter 18. Electromechanical Optical Mapping Methods.- Part V. Methodology.- Chapter 19. The Bidomain Model of Cardiac Tissue: From Microscale to Macroscale.- Chapter 20. Newer Models of Cardiac Tissue.- Chapter 21. The Role of Electroporation.- Chapter 22. RF Versus Cryo Ablation.- Chapter 23. Electroanatomical Mapping.- Part VI. Implications for Implantable Devices.- Chapter 24. Lessons for the Clinical Implant.- Chapter 25. Resonance and Feedback Strategies for Low-Voltage Defibrillation.- Chapter 26. Pacing Control of Local Cardiac Dynamics.- Chapter 27. Advanced Methods for Assessing the Stability and Control of Alternans.- Chapter 28. The Future of Implantable Defibrillator.- Chapter 29. Lessons Learnt from Implantable Cardioverter -Defibrillators Recordings.- Part VII. Novel Arrhythmia Therapies.- Chapter 30. Optogenetic Control of Arrhythmias.- Chapter 31. Subcutaneous Defibrillation.- Chapter 32. Future High-Resolution Mapping.- Chapter 33. Conformal Electronics Therapy for Defibrillation.- Chapter 34. Multistage Defibrillation Therapy.- Chapter 35. Implantable Cardioverter Defibrillator to Cardiac Implantable Electronic Device.- Chapter 36. Leadless Pacing.- Chapter 37. Direct His-bundle Pacing.- Chapter 38. Artificial Intelligence/Machine Learning/Deep Learning.- Chapter 39. Wearable Devices for Ambulatory Cardiac and Respiratory Monitoring.