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Cell therapy approaches for treatment of bradyarrhythmias
Udi Nussinovitch
, Christine L. Mummery
, Robert David
Internal Medicine
Meir Hospital Sapir Medical Center
Leiden University
University of Twente
University of Rostock
Research output
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Chapter in Book/Report/Conference proceeding
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Chapter
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peer-review
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Keyphrases
Cell Therapy
100%
Therapy Approaches
100%
Bradyarrhythmia
100%
Sinoatrial Node
100%
Physiological Needs
50%
Atrioventricular Node
50%
Biological Pacemaker
50%
Electronic Pacemaker
50%
Cell Programming
50%
Stem Cells
25%
Gene Therapy
25%
Myocytes
25%
Action Potential
25%
Number of Patients
25%
Automaticity
25%
Pacemaker
25%
Life-threatening
25%
Myocardium
25%
Heart Disease
25%
Crucial Function
25%
Aging Population
25%
Ion Channels
25%
Ventricle
25%
Electronic Devices
25%
Purkinje Fibers
25%
Electrical Coupling
25%
Omics Approaches
25%
Gene Vector
25%
Direct Reprogramming
25%
Pacemaker Implantation
25%
Diastolic Depolarization
25%
Severe Bradycardia
25%
Cardiac Conduction System
25%
Electrical Impulse
25%
Vector Delivery
25%
Sinoatrial Node Dysfunction
25%
Impulse Generation
25%
Battery Life
25%
Metal Allergy
25%
Physiological Interference
25%
Physiological Pacing
25%
Autonomic Responsiveness
25%
Pacemaker Dysfunction
25%
Veterinary Science and Veterinary Medicine
Reprogramming
100%
Stem Cell
100%
Myocyte
100%
Action Potential
100%
Diastolic Depolarization
100%
Infectious Disease
100%
Biochemistry, Genetics and Molecular Biology
Biological Pacemaker
100%
Rhythm
50%
Reprogramming
50%
Stem Cell
50%
Gene Therapy
50%
Action Potential
50%
Heart Conduction
50%
Gene Vector
50%
Diastolic Depolarization
50%
Ion Channel
50%
Nursing and Health Professions
Cell Therapy
100%
Pacemaker
100%
Artificial Heart Pacemaker
50%
Heart Disease
25%
Infection
25%
Electronic Device
25%
Gene Therapy
25%
Pacemaker Implantation
25%
Action Potential
25%
Gene Vector
25%
Ion Channel
25%
Material Science
Stem Cell
100%
Gene Therapy
100%