Mechanosensitivity of microdomain calcium signalling in the heart

Keyphrases

• Ca2+ 100%
• Calcium Signaling 100%
• Microdomain 100%
• Mechanosensitivity 100%
• Local Ca2+ 50%
• Arrhythmia 33%
• Mitochondria 33%
• Sarcoplasmic Reticulum 33%
• Atrial Fibrillation 16%
• Reactive Oxygen Species 16%
• Clinical Significance 16%
• Historical Data 16%
• Mediating Effect 16%
• Signaling Pathway 16%
• Dysregulation 16%
• Oxidative Stress 16%
• Close Contact 16%
• Post-myocardial Infarction 16%
• Nitric Oxide 16%
• Atrial Myocytes 16%
• Myocytes 16%
• Cardiac Disease 16%
• Mechanical Stimulation 16%
• Signaling Molecules 16%
• Preload 16%
• Contractile Dysfunction 16%
• Mechanical Load 16%
• Afterload 16%
• Ventricular Myocytes 16%
• Ca2+-induced Ca2+ Release 16%
• Mechanotransduction 16%
• Mechanosensitive 16%
• Local Ca2+ Release 16%
• Energetic Demand 16%
• Force Adaptation 16%
• Microdomain Structure 16%
• Mechanically Induced 16%
• T-tubules 16%
• Physiological Significance 16%
• Junctional Sarcoplasmic Reticulum 16%
• Chronic Model 16%
• Arrhythmogenesis 16%

INIS

• calcium 100%
• sarcoplasmic reticulum 100%
• mitochondria 66%
• diseases 33%
• data 33%
• increasing 33%
• contraction 33%
• control 33%
• demand 33%
• myocardial infarction 33%
• reviews 33%
• losses 33%
• oxygen 33%
• stimuli 33%
• investigations 33%
• molecules 33%
• oxidation 33%
• tubules 33%
• mechanics 33%
• nitric oxide 33%

Biochemistry, Genetics and Molecular Biology

• Calcium Signaling 100%
• Mechanosensitivity 100%
• Cardiac Dysrhythmia 66%
• Mitochondrion 66%
• Nitric Oxide 33%
• Oxidative Stress 33%
• Energy Transfer 33%
• Cardiac Muscle Cell 33%
• Heart Preload 33%
• Heart Afterload 33%
• Mechanotransduction 33%
• Atrial Fibrillation 33%