Keyphrases
Cardiac Performance
100%
Sarcoplasmic Reticulum
100%
Energy Levels
75%
Energization
75%
Ca2+
50%
Cardiac Inotropism
50%
Ca2+-ATPase
50%
β-adrenergic Stimulation
50%
Ca2+ Uptake
50%
Perfusion
50%
Clinical Situation
25%
Catecholamines
25%
Significant Relationship
25%
Reticle
25%
Clinical Problems
25%
Pig Heart
25%
Myocardial Function
25%
Pumping Activity
25%
Heart Model
25%
Bioenergetic Pathways
25%
Non-ischemic
25%
Functional Improvement
25%
Reticulum
25%
Viable Myocardium
25%
ATP Hydrolysis
25%
Substrate Enhancement
25%
Autoradiography
25%
Normoxic
25%
Contractile Function
25%
Inorganic Phosphate
25%
Subcellular Processes
25%
Ischemic Heart
25%
Myocardial Stunning
25%
Contractility
25%
Gibbs Free Energy
25%
Guinea pig Heart
25%
Adrenergic Stimulation
25%
Electrophoresis
25%
Isoproterenol
25%
Ca2+ Transport
25%
Stunned Myocardium
25%
High Phosphate
25%
Biochemistry, Genetics and Molecular Biology
Inotropism
100%
Energy Transfer
100%
Beta Adrenergic Stimulation
100%
Heart Performance
100%
ATPase
100%
Adenosine Triphosphate
100%
Perfusion
100%
High Energy Phosphate
50%
Heart Function
50%
Isoprenaline
50%
Bioenergetics
50%
Electrophoresis
50%
Isotope Labeling
50%
Guinea Pig
50%
Muscle Contractility
50%
Catecholamine
50%
Adrenergic Stimulation
50%
Enzymatic Hydrolysis
50%
Medicine and Dentistry
Energy Transfer
100%
Heart Performance
100%
Pyruvic Acid
100%
Calcium Ion
83%
Sarcoplasmic reticulum
66%
Adenosine Triphosphatase (Calcium)
33%
Beta Adrenergic Stimulation
33%
Myocardium
33%
Inotropism
33%
Adenosine Triphosphate
33%
Autoradiograph
16%
Phosphorus 32
16%
Electrophoresis
16%
Catecholamine
16%
Phosphate
16%
High Energy Phosphate
16%
Adrenergic Stimulation
16%
Heart Function
16%
Enzymatic Hydrolysis
16%
Muscle Contractility
16%
Isoprenaline
16%
Contractile Function
16%
Heart Muscle Ischemia
16%
Myocardial Stunning
16%
Radioactive Tracer
16%