Keyphrases
Absorbed Dose
25%
Adaptive Stress Response
25%
Astronaut
25%
Atomic number
25%
Biological Approach
25%
Cancer Risk
25%
Cardiac Fibrosis
25%
Cardiac Inflammation
25%
Cardiac Injury
25%
Cardiac Mitochondria
25%
Cesium-137 (137Cs)
25%
Energy Supply
25%
Galactic Cosmic Rays
25%
Heart Tissue
25%
High Energy
25%
Histological Techniques
25%
HZE Particles
50%
Isovelocity
25%
Knowledge Gaps
25%
Lipids
25%
Low Fluence
25%
Male Mice
25%
Mitochondria
25%
Mitochondrial DNA Copy number
25%
Mitochondrial Proteins
25%
Mitochondrial Stress Response
100%
Mitochondrial tRNA
25%
Myocytes
25%
Nucleic Acids
25%
Or Injury
25%
Oxidative Damage
25%
Oxidative Stress
25%
Particle Radiation
25%
Potential Risk
25%
Project Effect
100%
Protein Activity
25%
Protein Expression
25%
Protein Level
25%
Proton
25%
Radiation Effects
50%
Radiation-induced Changes
25%
Reactive Oxygen Species
25%
Reference Radiation
50%
RNA Expression
25%
Space Ionizing Radiation
25%
Space Radiation
100%
Stress Proteins
25%
Stress Response Pathway
25%
Ultra-low Dose
25%
Young Males
25%
Pharmacology, Toxicology and Pharmaceutical Science
Acid Protein
100%
Biological Marker
100%
Carditis
100%
Cesium 137
100%
Heart Injury
100%
Heart Muscle Fibrosis
100%
Heat Shock Protein
100%
Ionizing Radiation
100%
Mitochondrial DNA
100%
Mitochondrial Protein
100%
Mitochondrial RNA
100%
Nucleic Acid
100%
Reactive Oxygen Metabolite
100%
Medicine and Dentistry
Absorbed Dose
50%
Acid Protein
50%
Biological Marker
50%
Caesium-137
50%
Cancer Risk
50%
Cardiac Fibrosis
50%
Cardiac Muscle Cell
50%
Carditis
50%
Gene Dosage
50%
Heart Injury
50%
Heart Tissue
50%
Histology
50%
Ionizing Radiation
50%
Low Drug Dose
50%
Mitochondrial DNA
50%
Mitochondrial Protein
50%
Mitochondrial RNA
50%
Mitochondrion
100%
Nucleic Acid
50%
Oxidative Stress
50%
Protein Expression
50%
Reactive Oxygen Species
50%