Nursing and Health Professions
Glycogen Muscle Level
64%
Muscle Biopsy
56%
Messenger RNA
48%
Hypoxia
44%
Albendazole
41%
Core Temperature
40%
Myosin Heavy Chain
39%
Environmental Temperature
34%
Aerobic Capacity
33%
Room Temperature
31%
Exercise Recovery
31%
Perceived Exertion
27%
Body Weight
27%
Body Fat
26%
Antioxidant
20%
Lactate Blood Level
18%
Hydrocortisone
17%
Skin Temperature
16%
Lipid Hydroperoxide
16%
Turnover Rate
15%
Bed Rest
15%
Fenugreek Extract
15%
Athletes
14%
Glucose Blood Level
13%
Trolox C
13%
Supplementation
12%
Tissue Oxygenation
12%
Ergometry
12%
Accelerometry
10%
Oxygenation
10%
Muscle Strength
9%
4 Hydroxyisoleucine
9%
Lactic Acid
9%
Hematocrit
9%
Diet Supplementation
7%
Isometrics
7%
Glucose Intake
7%
Clinical Population
7%
Overexertion
7%
Ghrelin
7%
Adiponectin
7%
Leptin
7%
Muscle Training
7%
Measurement
7%
Accelerometer
7%
Placebo
7%
Linear Regression Analysis
6%
Oxygen Saturation
6%
Uncoupling Protein 3
5%
Area under the Curve
5%
Immunology and Microbiology
Muscle
77%
Skeletal Muscle
62%
Room Temperature
58%
Gene Expression
52%
Environmental Temperature
48%
Oxidative Stress
31%
Glycogen Muscle Level
27%
Exercise Recovery
24%
Blood Plasma
23%
Mitochondrial Biogenesis
23%
Resistance Training
19%
Leg
18%
Homeostasis
17%
Endurance Training
17%
Core Temperature
17%
Glycogen Synthesis
15%
Transcription Factors
14%
Mitophagy
12%
Limb
11%
Quantitative Reverse Transcription Polymerase Chain Reaction
11%
Promoter Region
11%
Normal Human
9%
Protein Binding
9%
Aerobic Exercise
8%
Skin Temperature
7%
DNA Damage
7%
Inflammation Response
7%
Heat Shock
7%
Gene Dosage
7%
Mitochondrion
7%
Adiponectin
7%
Sitting
7%
Leg Movement
7%
Brain Derived Neurotrophic Factor
7%
Cardiovascular Function
7%
Leptin
7%
Ghrelin
7%
DNA Responsive Element
7%
Myocyte Enhancer Factor 2
7%
Body Weight
5%
Hemoglobin
5%
Biochemistry, Genetics and Molecular Biology
Messenger RNA
100%
Gene Expression
81%
Skeletal Muscle
81%
Exercise Recovery
39%
Room Temperature
35%
Resistance Training
29%
Oxidative Stress
23%
Glycogen Muscle Level
23%
Environmental Temperature
21%
Aerobic Exercise
16%
Mitochondrial Biogenesis
15%
Proteolysis
14%
Transcription Factors
13%
Endurance Training
12%
Myogenesis
12%
Mitochondrial DNA
11%
TFAM
10%
Metabolic Pathway
9%
Oxygenation
9%
Tissue Oxygenation
9%
Quantitative Reverse Transcription Polymerase Chain Reaction
9%
Promoter Region
9%
NRF1
8%
Isoform
7%
Homeostasis
7%
Heart Output
7%
Energy Expenditure
7%
Lipid
7%
Heat Shock Protein
7%
Myostatin
7%
UCP3
7%
Binding Protein
7%
Myocyte Enhancer Factor 2
7%
Real-Time Polymerase Chain Reaction
7%
NFE2L2
6%
Skin Temperature
6%
Core Temperature
5%
Cyclic Adenosine Monophosphate
5%
Response Element
5%
Synapsin I
5%
Muscle Growth
5%
