Keyphrases
Pathobiology
100%
Cardiac Resynchronization
100%
Dyssynchrony
100%
Cardiac Dyssynchrony
100%
Cardiac Resynchronization Therapy
83%
Clinically Significant
16%
Strain Analysis
16%
Mechanistic Interpretation
16%
Electrophysiology Mapping
16%
Cellular Mechanisms
16%
Canine
16%
Molecular Mechanism
16%
Electrophysiologic
16%
Dilated Cardiomyopathy
16%
Molecular Analysis
16%
Data Interpretation
16%
Molecular Signaling
16%
Myocytes
16%
Myocardial Stress
16%
Heart Failure Etiology
16%
Cardiac Function
16%
Incomplete Knowledge
16%
Gene Transcription
16%
Optimal Identification
16%
Stress Signaling
16%
Subproteome
16%
Stress Response
16%
Hypertrophy
16%
Common Model
16%
Myocardium
16%
Existing Data
16%
Cardiac Failure
16%
Clinical Symptoms
16%
Clinical Impact
16%
Morbidity Mortality
16%
Electrical Dyssynchrony
16%
Left Ventricular Stimulation
16%
Large Animal Model
16%
Magnetic Resonance
16%
Mechanical Efficiency
16%
Mechanical Dyssynchrony
16%
Electrophysiological Characteristics
16%
Interventricular Delay
16%
Electrophysiology
16%
Biventricular
16%
Patient Morbidity
16%
Transmural Heterogeneity
16%
Target Pathways
16%
Optical Mapping
16%
Highly Integrated
16%
Endocardium
16%
Medicine and Dentistry
Cardiac Resynchronization Therapy
100%
Electrophysiology
40%
Congestive Heart Failure
40%
Pathophysiology
20%
Dilated Cardiomyopathy
20%
Endocardium
20%
Cellular Mechanism
20%
Genetic Transcription
20%
Myocardium
20%
Heart Function
20%
Heart Ventricle Conduction
20%
Muscle Cell
20%
Biochemistry, Genetics and Molecular Biology
Cardiac Resynchronization Therapy
100%
Electrophysiology
40%
Heart Ventricle Conduction
20%
Genetic Transcription
20%
Heart Function
20%
Proteome
20%
Optics
20%
Magnetism
20%
Animal Model
20%