Biochemistry, Genetics and Molecular Biology
Mouse
100%
Pressure
66%
Disintegrin
62%
Metalloproteinase
62%
Thrombospondin
62%
NAD(P)H Oxidase
62%
Volume
43%
Versican
42%
Development
37%
Protein
36%
Knockout Mouse
34%
Proteoglycan
31%
Exercise
31%
Time
31%
Dilatation
31%
Mouse Model
31%
Nuclear Membrane
31%
Unfolded Protein Response
31%
Protease
22%
Wild Type
18%
Angiotensin
17%
Human
17%
Heart Ejection Fraction
15%
Mitochondrion
13%
High-Resolution Episcopic Microscopy
12%
Muscle Contraction
12%
Morphology
12%
Mutation
12%
Density
12%
Reduction (Chemistry)
11%
Riboside
10%
Nicotinamide
10%
Apoptosis
9%
Wild Type Mouse
9%
Proteomics
9%
Regulatory Mechanism
8%
Species
7%
ADAMTS
6%
Heart Rate
6%
Chondroitin Sulfate Proteoglycan
6%
Fibroblast
6%
Immunofluorescence
6%
Adaptation
6%
Nested Gene
6%
Myosin
6%
Phenotype
6%
Mechanical Stress
6%
Introspection
6%
Force
6%
DNA Damage
6%
Medicine and Dentistry
Cardiomyocyte
80%
Heart
66%
Volume Overload
43%
Measurement
37%
In Vitro
36%
Aortic Valve
31%
Endothelial Cell
31%
Ventricular Hypertrophy
31%
Reduced Nicotinamide Adenine Dinucleotide Phosphate Oxidase 4
31%
Percutaneous Valve
31%
Heart Development
31%
Unfolded Protein Response
31%
Combination Therapy
31%
Nuclear Membrane
31%
Evaluation Study
31%
Heart Disease
31%
Diastolic Function
31%
Isovolumic Relaxation Time
31%
Heart Ventricle Remodeling
30%
Aortic Constriction
25%
Adult
25%
Protein
24%
Tissues
21%
Human
17%
Contractile Function
16%
Assessment
15%
Therapeutic Procedure
13%
Morphology
12%
Cardiomyopathy
12%
Muscle Contraction
12%
Echocardiography
12%
Heart Failure with Preserved Ejection Fraction
12%
Thapsigargin
12%
Capillary
12%
Inpatient
11%
Hemodynamic
10%
Aortic Stenosis
10%
Death
10%
Biological Marker
10%
Mitochondrion
10%
Nicotinamide Riboside
10%
Programmed Cell Death
9%
Aortocaval Fistula
9%
Patient
8%
Myocyte
8%
Cells
7%
Reactive Oxygen Species
7%
Heart Valve Bioprosthesis
6%
Stress
6%
Rupture
6%
