Keyphrases
Amino Acids
100%
Muscle Protein Turnover
100%
Sarcopenia
100%
Dietary Protein
100%
Potential Contribution
100%
Anabolic Response
66%
Protein Supplementation
66%
Metabolic Resistance
66%
Etiology
33%
Stable Isotopes
33%
Elderly People
33%
Exercise Program
33%
Resistance Exercise
33%
Muscle Mass Loss
33%
Muscle Protein
33%
Muscle Cells
33%
Effective Approach
33%
Digestion
33%
Peripheral Tissues
33%
Protein Content
33%
Anabolism
33%
Increasing Age
33%
Lean Tissue
33%
Recommended Daily Intake
33%
Medicine and Dentistry
Development
100%
Muscle Protein
100%
Protein
100%
Sarcopenia
100%
Protein Intake
80%
Age
60%
Amino Acid
60%
Supplementation
40%
Biosynthesis
20%
Tissues
20%
Muscle Cell
20%
Etiology
20%
Stable Isotope
20%
Resistance Training
20%
Elderly Population
20%
Digestion
20%
Lean Tissue
20%
Nursing and Health Professions
Protein
100%
Muscle Protein
100%
Sarcopenia
100%
Turnover Rate
100%
Protein Intake
80%
Amino Acid
60%
Supplementation
40%
Time
20%
Muscle Mass
20%
Etiology
20%
Stable Isotope
20%
Protein Content
20%
Elderly Population
20%
Agricultural and Biological Sciences
Protein
100%
Muscle Protein
100%
Sarcopenia
100%
Age
60%
Amino Acid
60%
Dietary Protein
60%
Tissues
40%
Feed Supplementation
40%
Cells
20%
Methodology
20%
Protein Intake
20%
Digestion
20%
Biochemistry, Genetics and Molecular Biology
Protein
100%
Development
100%
Protein Degradation
100%
Age
60%
Amino Acids
60%
Dietary Protein
60%
Time
20%
Anabolism
20%
Absorption
20%
Digestion
20%
Resistance Training
20%
Protein Content
20%
INIS
proteins
100%
muscles
100%
losses
30%
amino acids
30%
tissues
20%
intake
20%
populations
10%
exercise
10%
anabolism
10%
increasing
10%
delivery
10%
etiology
10%
uptake
10%
stable isotopes
10%
absorption
10%
digestion
10%
Pharmacology, Toxicology and Pharmaceutical Science
Protein
100%
Muscle Protein
100%
Sarcopenia
100%
Amino Acid
37%
Stable Isotope
12%
Etiology
12%