Keyphrases
Induced Pluripotent Stem Cells (iPSCs)
100%
Novel Technique
100%
Cell Differentiation
100%
Pluripotent Stem Cells
100%
Cardiac muscle
100%
Cell Derivation
100%
Patent Literature
100%
Embryonic Stem Cells
85%
Genetic Manipulation
14%
Stem Cells
14%
Regenerative Medicine
14%
Self-renewal
14%
Epigenetics
14%
Disease Modeling
14%
Cardiomyocytes
14%
Genomic Instability
14%
Muscle Regeneration
14%
Human Embryonic Stem Cells (hESCs)
14%
Somatic Cells
14%
Transcriptional Reprogramming
14%
Pluripotency
14%
Epigenetic Reprogramming
14%
Donor-recipient Matching
14%
Biopharmaceuticals
14%
Pluripotent Cells
14%
Cardiac Differentiation
14%
Ethical Issues
14%
Drug Screening
14%
Differentiation Capacity
14%
Disaggregation
14%
Production Differentiation
14%
European Court of Justice
14%
Cell Conditioning
14%
European Companies
14%
Production Expansion
14%
Medicine and Dentistry
Cardiac Muscle
100%
Pluripotent Stem Cell
100%
Induced Pluripotent Stem Cell
100%
Embryonic Stem Cell
85%
Diseases
14%
In Vitro
14%
Drug Screening
14%
Genomic Instability
14%
Muscle Regeneration
14%
Human Embryonic Stem Cell
14%
Conditioning
14%
Stem Cell
14%
Medicine
14%
Biopharmaceuticals
14%
Cell Line
14%
Cardiac Muscle Cell
14%
Somatic Cell
14%
Immunology and Microbiology
Induced Pluripotent Stem Cell
100%
Pluripotent Stem Cell
100%
Cardiac Muscle
100%
Embryonic Stem Cell
85%
Stem Cell
14%
Cell Line
14%
Conditioning
14%
Genomic Instability
14%
Genetic Manipulation
14%
Human Embryonic Stem Cell
14%
Muscle Regeneration
14%
Drug Screening
14%
Somatic Cell
14%
Cardiac Muscle Cell
14%
Biochemistry, Genetics and Molecular Biology
Stem Cell
100%
Induced Pluripotent Stem Cell
100%
Embryonic Stem Cell
100%
Epigenetics
28%
Genome Instability
14%
Disease Modeling
14%
Animal Models
14%
In Vivo Study
14%
Reprogramming
14%
Genetic Manipulation
14%
Conditioning
14%
Drug Screening
14%
Muscle Regeneration
14%
Cardiac Muscle Cell
14%
Somatic Cell
14%
Pharmacology, Toxicology and Pharmaceutical Science
Drug Screening
100%
Disease
100%