Keyphrases
Action Potential Duration
20%
Amino Acids
28%
Arrhythmia
62%
Arrhythmic Risk
71%
Cardiac Diastolic Dysfunction
19%
Cardiac Sodium Channel
96%
Cardiomyopathy
33%
Cisatracurium
27%
Competitive Antagonist
42%
D-tubocurarine
30%
Diabetic
28%
Diastolic Dysfunction
33%
Electroporation
28%
Extremely Low Frequency
21%
Heart Disease
39%
Heart Failure
51%
Human Heart Failure
22%
Human Induced Pluripotent Stem Cell-derived Cardiomyocytes (hiPSC-CMs)
30%
Hypomagnesemia
36%
IC50
25%
Inflammation
23%
Interleukin-1β
28%
Ion Channels
26%
Magnesium Deficiency
21%
Metabolism
19%
Mitochondria
24%
Mitochondrial Ca2+
28%
Mitochondrial Dysfunction
25%
Mitochondrial Function
21%
Mitochondrial Reactive Oxygen Species (mtROS)
42%
Myocardial Infarction
19%
Myosin-binding Protein C
28%
Na+ Channel
30%
Na+ Current
23%
Nav1.5
49%
Nicotinic Acetylcholine Receptor (nAChR)
31%
Nonischemic Cardiomyopathy
18%
Oxidative Stress
27%
Pancuronium
30%
Phenotypic Variation
20%
Protein Kinase
23%
Reactive Oxygen Species
33%
Ryanodine Receptor 2
18%
SCN5A
46%
Sodium Channel mutation
28%
Transcription Factor
19%
Type 1 Diabetes Mellitus (T1DM)
36%
Unfolded Protein Response
100%
Vecuronium
33%
Ventricular Arrhythmia
20%
Pharmacology, Toxicology and Pharmaceutical Science
Adenosine Triphosphate
14%
Amino Acid
16%
Antiarrhythmic Agent
28%
Arrhythmogenesis
14%
Brugada Syndrome
11%
C57BL 6 Mouse
9%
Calcium Ion
26%
Cardiac Myosin
14%
Cardiovascular Disease
31%
Cholinergic Receptor
21%
Cisatracurium
27%
Competitive Antagonist
42%
Congestive Heart Failure
72%
Diabetes Mellitus
17%
Dimethyltubocurarine
21%
Glycerol 3 Phosphate Dehydrogenase
16%
Heart Arrhythmia
92%
Heart Disease
39%
Heart Infarction
18%
Hypomagnesemia
31%
IC50
25%
Inflammation
35%
Inositol
14%
Interleukin 1
14%
Ion Channel
63%
Long QT Syndrome 1
11%
Magnesium Deficiency
20%
Magnesium Ion
11%
Messenger RNA
37%
Metabolic Stress
14%
Myocardial Disease
32%
Myosin Binding Protein C
14%
Neurologic Disease
11%
Nicotinic Receptor
42%
Nonischemic Cardiomyopathy
18%
Pancuronium
30%
Phosphotransferase
51%
Protein Kinase C
16%
Protein Kinases
17%
Pyridine Nucleotide
16%
Reactive Oxygen Metabolite
64%
Receptor
16%
Rocuronium
11%
Ryanodine Receptor 2
10%
Sodium Channel
72%
Sodium Ion
25%
Synapsin I
14%
Transient Receptor Potential Channel
14%
Transient Receptor Potential Channel M
14%
Vecuronium
33%
Biochemistry, Genetics and Molecular Biology
11-Deoxycorticosterone
14%
Acetylcholine Receptor
14%
Action Potential Duration
19%
Adenosine Triphosphate
28%
Afterdepolarization
14%
C57BL 6 Mouse
16%
Calcium ATPase
14%
Cardiac Dysrhythmia
42%
Cardiac Muscle Cell
64%
down Regulation
28%
Electric Activity
14%
Electric Field
14%
Enhancer Region
14%
Gene Expression
12%
Genotype Phenotype Correlation
14%
Heart Ejection Fraction
21%
Homeostasis
31%
Hypomagnesemia
28%
Induced Pluripotent Stem Cell
34%
Infrared Spectroscopy
14%
Interleukin-1
28%
Ion Channel
30%
Kinase
40%
Long Non-Coding RNA
14%
Macrophage
14%
Maturation
14%
Messenger RNA
41%
Metabolic Pathway
16%
Metabolic Regulation
14%
Mitochondrial Disorder
25%
Mitochondrion
16%
Mitogen-Activated Protein Kinase
14%
Myosin Binding Protein C, Cardiac
28%
Nav1.5
20%
Nicotinic Acetylcholine Receptor
14%
Nucleotide Binding Site
14%
Oxidative Stress
23%
Phosphotransferase
40%
Protein Kinase C
14%
QT Interval
17%
Receptor Potential
14%
RNA Stability
14%
RNA-binding Protein
15%
Ryanodine Receptor 2
18%
Sodium Channel
68%
Sodium Current
15%
Stem Cell
14%
Transcription Factors
19%
Transient Receptor Potential Channel
16%
Unfolded Protein Response
42%