Cardiac Pacing Defibrillation and Resynchronization A Clinical Approach 4th Edition by David Hayes 1119264019 9781119264019

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ISBN-10 :  1119264019 

ISBN-13 :  9781119264019

Author:  David L. Hayes 

A practical and up-to-date guide to pacemaker technology and its clinical implementation As the field of cardiology continues to advance and expand, so too does the technology and expertise behind today’s electrophysiological devices. Cardiac Pacing, Defibrillation and Resynchronization has been assembled by international specialists to give all those caring for patients with heart disorders a clear and informative guide to the pacemakers and clinical methods of today. Now in its fourth edition, this essential resource: Explains different methods of pacemaker implementation in a straightforward and easy-to-follow manner Explores the most common challenges faced by working clinicians Features more than 750 illustrative graphics Contains data on the efficacy and long-term outcomes of different device models Covers new technology and clinical trial data Written for cardiologists, cardiac pacing caregivers, and those preparing to take their electrophysiology board examinations, Cardiac Pacing, Defibrillation and Resynchronization offers a complete exploration of electrophysical devices and their vital role in modern-day cardiology.

Cardiac Pacing Defibrillation and Resynchronization A Clinical Approach 4th Table of contents:

1 Pacing and Defibrillation: Clinically Relevant Basics for Practice
Anatomy and physiology of the cardiac conduction system
Electrophysiology of myocardial stimulation
Pacing basics
Lead design
Pulse generators
Essentials of defibrillation
The importance of waveform
Measuring the efficacy of defibrillation
Drugs and defibrillators
Antitachycardia pacing
Summary
References
2 Hemodynamics of Cardiac Pacing: Optimization and Programming to Enhance Cardiac Function
Cardiovascular physiology
Basics of hemodynamic pacing
Rate‐adaptive atrioventricular intervals
Atrial mechanical function
Effect of pacing mode on morbidity and mortality
Pacing in heart failure
Atrioventricular optimization in cardiac resynchronization therapy
Ventricular timing optimization (ventriculo‐ventricular optimization)
Less common indications for pacing for hemodynamic improvement
Conclusions
References
3 Indications for Pacemakers, Implantable Cardioverter‐Defibrillators, and Cardiac Resynchronization Therapy: Identifying Patients Who Benefit from Cardiac Rhythm Devices
Indications for permanent pacing
Indications for the implantable cardioverter‐defibrillator
Wearable cardioverter‐defibrillator therapy
Contraindications to implantable cardioverter‐defibrillator therapy
Acknowledgement
References
4 Choosing the Device Generator and Leads: Matching the Device with the Patient
Pacemaker selection
Neurocardiogenic syncope and carotid sinus hypersensitivity
Choosing specific programmable options
Choosing the rate‐adaptive sensor
Choosing the lead or leads
Leadless pacemakers
Generator and lead selection in defibrillators
Dual‐chamber or single‐chamber internal cardioverter‐defibrillator?
Conclusions
References
5 Implanting and Extracting Cardiac Devices: Technique and Avoiding Complications
Implantation facility
Anesthesia
The pulse generator pocket
Venous approaches
Ventricular lead placement
Coronary sinus lead placement
Securing permanent leads
Dual‐chamber pulse generator implantation
Measurement of pacing and sensing thresholds
Epicardial systems
Hardware adaptations
Special considerations in pediatric patients
Device implantation after cardiac transplantation
Hospital stay after implantation
Pulse generator replacement
Postimplant order set
Homegoing instructions
Lead extraction
References
6 Implant‐Related Complications: Relevant Anatomy and Approaches for Prevention
Inadvertent left ventricular lead placement
Lead dislodgment
Loose connector block connection
Complications in specific devices
Acknowledgements
References
7 Timing Cycles
Basic approach
Portions of pacemaker timing cycles
Initial electrocardiographic interpretation
Conclusions
References
8 Programming: Maximizing Benefit and Minimizing Morbidity Programming
Defibrillator programming
Subcutaneous implantable defibrillator
Cardiac resynchronization programming
Conclusions
References
9 Sensor Technology for Rate‐Adaptive Pacing and Hemodynamic Optimization
Indications for rate‐adaptive pacing
Sensors available for rate‐adaptive pacing
Dual‐sensor rate‐adaptive pacing
Sensor applications for hemodynamic management
Programming
Rate‐adaptive pacing with cardiac resynchronization devices
Future of rate‐adaptive sensors
References
10 Troubleshooting
Fundamentals
Basics of troubleshooting sensing
Pacemaker troubleshooting
Implantable cardioverter‐defibrillator troubleshooting
Troubleshooting cardiac resynchronization devices
References
11 Radiography of Implantable Devices
Introduction
Pulse generators
Leads
Implantable cardioverter‐defibrillator leads
Miscellaneous considerations
Conclusions
References
12 Electromagnetic Interference: Sources, Recognition, and Management
Pacemaker responses to noise
Clinical advice
Hacking
References
13 Follow‐up
Requirements for a device follow‐up clinic
Pacemaker follow‐up
Implantable cardioverter‐defibrillator follow‐up
Cardiac resynchronization therapy follow‐up specifics

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Tags: Cardiac Pacing, Defibrillation, Resynchronization, Clinical Approach, David Hayes