Medicine and Dentistry
Multiple Organ Dysfunction Syndrome
100%
Mitochondrial Dynamics
100%
Sepsis
100%
Intensive Care Unit
100%
Transcriptome
100%
Skeletal Muscle
80%
Protein Synthesis
40%
Muscle Function
40%
Phenotype
20%
Oxidative Stress
20%
Mediator
20%
microRNA
20%
Enzyme Activity
20%
Protein Degradation
20%
Homeostasis
20%
Mitochondrion
20%
Muscle Metabolism
20%
Biopsy
20%
Mitochondrial Gene
20%
microRNA 21
20%
Cell Energy
20%
Muscle Atrophy
20%
Protein Synthesis Regulation
20%
Mitochondrial Enzyme
20%
Mitochondrial Biogenesis
20%
Cytokine Signaling
20%
Energy Balance
20%
INIS
dynamics
100%
units
100%
failures
100%
patients
100%
mitochondria
100%
organs
100%
muscles
100%
genes
36%
proteins
36%
losses
27%
synthesis
27%
tissues
18%
recovery
9%
enzyme activity
9%
control
9%
animals
9%
oxidation
9%
humans
9%
regulations
9%
damage
9%
processing
9%
phenotype
9%
inflammation
9%
in vivo
9%
homeostasis
9%
defects
9%
transcription
9%
metabolism
9%
proteolysis
9%
energy balance
9%
insulin
9%
cytokines
9%
biopsy
9%
Biochemistry, Genetics and Molecular Biology
Skeletal Muscle
100%
Transcriptome
100%
Mitochondrial Dynamics
100%
MicroRNA
50%
Protein Biosynthesis
50%
Muscle Function
50%
Protein Catabolism
25%
TFAM
25%
Animal Models
25%
Transcription
25%
Enzyme Activity
25%
Mitochondrion
25%
Oxidative Stress
25%
Gene Ontology
25%
Homeostasis
25%
Energy Balance
25%
Mitochondrial Biogenesis
25%
Muscle Metabolism
25%
Mitochondrial Gene
25%
Cytokine
25%
Protein Synthesis Regulation
25%
Mediator
25%
Cell Energy
25%
Phenotype
25%
Immunology and Microbiology
Transcriptome
100%
Skeletal Muscle
100%
Mitochondrial Dynamics
100%
Protein Synthesis
50%
Muscle Function
50%
Cytokine Signaling
25%
Gene Ontology
25%
Protein Degradation
25%
Oxidative Stress
25%
Enzyme Activity
25%
Mitochondrion
25%
Energy Balance
25%
Mediator
25%
Homeostasis
25%
Phenotype
25%
Muscle Metabolism
25%
Mitochondrial Gene
25%
Cell Energy
25%
Mitochondrial Biogenesis
25%
Protein Synthesis Regulation
25%
Neuroscience
Transcriptome
100%
Skeletal Muscle
100%
Mitochondrial Dynamics
100%
Protein Biosynthesis
50%
In Vivo
25%
Proteolysis
25%
Mitochondrion
25%
Mitochondrial Function
25%
MicroRNA
25%
Oxidative Stress
25%
Metabolic Pathway
25%
Energy Balance
25%
Mitochondrial Biogenesis
25%
Protein Synthesis Regulation
25%
Mitochondrial Enzyme
25%
Mitochondrial Gene
25%
microRNA 21
25%
Enzyme Activity
25%
Cell Energy
25%
Muscle Atrophy
25%
Pharmacology, Toxicology and Pharmaceutical Science
Multiple Organ Failure
100%
Sepsis
100%
Transcriptome
100%
Cytokine
50%
Mitochondrial Enzyme
50%
microRNA
50%
Muscle Atrophy
50%
microRNA 21
50%