Keyphrases
Induced Pluripotent Stem Cells (iPSCs)
100%
Isogenic
100%
Starvation
100%
Cardiac Organoids
100%
Organoids
42%
Deprivation
28%
Human Induced Pluripotent Stem Cell-derived Cardiomyocytes (hiPSC-CMs)
28%
Cardiovascular Disease
14%
Metabolic
14%
Drug Development
14%
Transcriptomics
14%
Cell Analysis
14%
Cardiovascular Risk
14%
Evaluation Assessment
14%
Bridging the Gap
14%
Transcriptome Profile
14%
Scaffold-free
14%
Cardiac Cells
14%
Cardiac Fibroblasts
14%
Translational Application
14%
Chemical Cues
14%
In Vitro Experimentation
14%
Cardiac Repair
14%
Conduction Velocity
14%
Cell Ultrastructure
14%
Morphological Evaluation
14%
Morphology Profile
14%
SERCA
14%
Electrophysiological Examination
14%
RyR2
14%
HiPSC-derived Cardiomyocytes
14%
Isogenic Cells
14%
Ca2+ Handling
14%
MYH6
14%
Exogenous Chemicals
14%
TNNT2
14%
Biochemistry, Genetics and Molecular Biology
Induced Pluripotent Stem Cell
100%
Coculture
100%
Transcriptomics
66%
Maturation
33%
Prevalence
33%
Morphology
33%
Cardiac Muscle Cell
33%
Upregulation
33%
SERCA
33%
MYH6
33%
TNNT2
33%
Fibroblast
33%
Pharmacology, Toxicology and Pharmaceutical Science
Drug Development
100%
Prevalence
100%
Cardiovascular Risk
100%
Calcium Ion
100%
Cardiovascular Disease
100%
Medicine and Dentistry
Organoid
100%
Induced Pluripotent Stem Cell
100%
Transcriptomics
22%
Cardiovascular Disease
11%
Maturation
11%
In Vitro
11%
Prevalence
11%
Cardiovascular Risk
11%
Morphology
11%
Cardiac Muscle Cell
11%
Upregulation
11%
Calcium Ion
11%
Cell Ultrastructure
11%
Fibroblast
11%
Engineering
Induced Pluripotent Stem Cell
100%
Organoid
100%
Bridging
11%
Promising Candidate
11%
Cardiomyocytes
11%
Cardiac Cell
11%
Conduction Velocity
11%
Cardiac Repair
11%
Cardiac Fibroblast
11%
Food Science
Transcriptomics
100%
Starvation
100%