Nursing and Health Professions
Glycogen Muscle Level
85%
Perceived Exertion
81%
Placebo
73%
Supplementation
64%
Antioxidant
63%
Athletes
61%
Muscle Biopsy
55%
Core Temperature
51%
Albendazole
48%
Body Weight
47%
Aerobic Capacity
47%
Messenger RNA
46%
Skin Temperature
46%
Lactic Acid
44%
Glucose Blood Level
43%
Myosin Heavy Chain
40%
Body Composition
38%
Lactate Blood Level
36%
Muscle Strength
31%
Hydrocortisone
31%
Environmental Temperature
31%
Interleukin 6
30%
Turnover Rate
30%
Hypoxia
28%
Ventilatory Threshold
28%
Quercetin
28%
Interleukin 10
28%
Body Fat
27%
Lipid Hydroperoxide
25%
Exercise Recovery
24%
Injury
23%
Room Temperature
23%
Trolox C
21%
Body Mass
21%
Isoprostane Derivative
20%
Muscle Injury
20%
Analysis of Variance
19%
Upper Respiratory Tract Infection
19%
Fat Free Mass
19%
Oxygenation
19%
Biological Marker
18%
Treadmill Exercise
18%
Fat Mass
17%
Leg Exercise
17%
Arm Exercise
17%
Lipid Blood Level
16%
Caloric Intake
16%
Heart Rehabilitation
15%
Blood Pressure
15%
Reproducibility
14%
Glycogen Analysis
13%
High-Intensity Interval Training
13%
Paresthesia
13%
Base
12%
Cardiorespiratory Fitness
12%
Exercise Test
12%
Leg Injury
12%
Isometrics
11%
Inflammation
11%
Electromyography
11%
Essential Amino Acid
11%
Valgus Knee
11%
Ischemia
11%
Anterior Cruciate Ligament Injury
11%
Brace
11%
Light Emitting Diode
11%
Motrin
11%
Reperfusion
11%
Fenugreek Extract
11%
Bed Rest
11%
Plyometrics
11%
Human Subject
11%
Immunoglobulin A
11%
Creatine Kinase
11%
Receptor
10%
Blood Flow
10%
Bicycle Ergometer
10%
Correlation Coefficient
10%
Anaerobic Power
10%
Heart Protection
9%
Urate
9%
Epinephrine
9%
Altitude
9%
Accelerometry
9%
Creatine Kinase Blood Level
9%
Coronary Artery Disease
9%
Ergometry
8%
Cardiovascular Disease
8%
Arnold Chiari Malformation
8%
Rectal Temperature
8%
McGill Pain Questionnaire
8%
Hyperbarism
8%
Gender Difference
8%
Plasma Volume
8%
Tissue Oxygenation
8%
Athletic Trainer
7%
High Risk Population
7%
Area under the Curve
7%
Leg Prosthesis
7%
Hematocrit
7%
Medicine and Dentistry
Skeletal Muscle
100%
Ingestion
78%
Quercetin
75%
Oxidative Stress
75%
Placebo
68%
Supplementation
56%
Exercise
54%
Resistance Training
44%
Heart Protection
43%
Messenger RNA
41%
Athletes
38%
Energy Expenditure
37%
Hydrocortisone
32%
Body Weight
31%
Muscle Biopsy
29%
Gene Expression
28%
Cardiovascular System
27%
Cytokine
25%
Antioxidant
25%
Ischemia
24%
Diseases
23%
Interleukin 6
23%
Oxygen Consumption
23%
Glucose Uptake
23%
Knee
23%
Endurance Training
22%
Cardiovascular Disease
20%
Limb
20%
Muscle Injury
19%
Injury
19%
Energy Balance
19%
Leg
17%
Sitting
17%
Reperfusion Injury
17%
Albendazole
17%
Heavy Meromyosin
17%
Sex Difference
17%
Hypoxia
17%
Programmed Cell Death
16%
Heart Rehabilitation
15%
Lactic Acid
15%
Range of Motion
15%
Blood Glucose
14%
Antioxidant Capacity
14%
Duchenne Muscular Dystrophy
14%
Dystrophin
14%
Isoprostane Derivative
14%
Muscle Function
14%
Immunity
13%
Caloric Intake
13%
Physical Activity
13%
Substrate Utilization
13%
Adipose Tissue
13%
Biological Marker
13%
Body Mass Index
12%
Glycogen Analysis
12%
Respiratory Physiology
12%
Body Fat
12%
High Intensity Interval Training
12%
Manganese Superoxide Dismutase
12%
Cardiorespiratory
11%
Carbohydrate Metabolism
11%
High Tibial Osteotomy
11%
Bed Rest
11%
Exercise Recovery
11%
Insulin Receptor Substrate 1
11%
Essential Amino Acid
11%
Nutrition
11%
Autophagy
11%
Interleukin-1
11%
Magnetic Resonance Imaging
10%
Natural Killer Cell
10%
Low Density Lipoprotein Cholesterol
10%
Glucose Transporter 4
10%
Upper Respiratory Tract Infection
9%
Tumor Necrosis Factor
9%
Respiratory Burst
9%
Coronary Artery Disease
9%
Skin Temperature
9%
Lisinopril
8%
Nicotinamide Riboside
8%
Necrosis
8%
Arnold Chiari Malformation
8%
Blood Pressure
8%
Varus Knee
8%
Insulin Resistance
8%
Epinephrine
8%
Exercise Intensity
8%
Visceral Fat
8%
Cell Count
8%
Arm
8%
Analysis of Variance
7%
Muscle Strength
7%
Thigh
7%
Immunoglobulin A
7%
Immune Function
7%
Vastus Lateralis Muscle
7%
Paresthesia
6%
Cardiovascular Physiology
6%
Cardiac Muscle Cell
6%
Biochemistry, Genetics and Molecular Biology
Messenger RNA
81%
Skeletal Muscle
80%
Gene Expression
62%
Oxidative Stress
50%
Reperfusion
45%
Glycogen Muscle Level
36%
Resistance Training
35%
Quercetin
34%
Endurance Training
31%
Exercise
29%
Blood Plasma
29%
Lipid
29%
Exercise Recovery
28%
Heat Shock Protein
25%
Room Temperature
23%
Oxygen Consumption
20%
Phosphodiesterase
20%
Energy Expenditure
19%
Muscle Contraction
18%
Aerobic Exercise
17%
Glucose Blood Level
17%
Environmental Temperature
16%
Mitochondrial Biogenesis
16%
Cortisol
16%
Fat Free Mass
16%
Body Composition
14%
Muscle Strength
14%
Body Weight
14%
Body Fat
14%
Liquid
14%
Ferric Reducing Ability of Plasma
13%
Dystrophin
13%
Autophagy
12%
Sex Difference
12%
Energy Balance
12%
Isoprostane
12%
Human
12%
Skin Temperature
11%
Acclimatization
11%
Energy Transfer
11%
Oxygenation
11%
Isoform
11%
Visual Feedback
11%
Muscle Fatigue
11%
Biomechanics
11%
Blood Flow
11%
Core Temperature
11%
Blood Lipids
10%
Protein Catabolism
10%
Ingestion
10%
Superoxide Dismutase
10%
Metabolic Pathway
10%
Body Mass
9%
Transcription Factors
9%
Myogenesis
9%
Cholesterol Blood Level
9%
GTPase
9%
Respiratory Function
8%
Frataxin
8%
Autophagosome
8%
Insulin Resistance
8%
Mitochondrial DNA
8%
Triglyceride
8%
Transducin
8%
Cytokine
8%
Essential Amino Acid
8%
Quantitative Reverse Transcription Polymerase Chain Reaction
8%
Glucose Transport
8%
Exercise Intensity
8%
Heavy Meromyosin
8%
Heat Stress
7%
Adenosine Triphosphate Sensitive Potassium Channel
7%
Promoter Region
7%
HDL-Cholesterol
7%
Sweating
7%
TFAM
7%
G Protein
7%
Interleukin 8
7%
Ischemic Preconditioning
7%
Magnetism
6%
Fat Mass
6%
Tissue Oxygenation
6%
Hypoxia Inducible Factor 1
6%
Molecular Weight
6%
Heart Output
6%
Antioxidant Enzyme
6%
Lipolysis
6%
Urine Level
6%
Photoreceptor Cell
6%
NRF1
6%
Genetics
6%
Trolox Equivalent Antioxidant Capacity
6%
Calpain
6%
Cyclooxygenase
6%
Uric Acid Blood Level
6%
Cardiac Muscle Cell
6%
Binding Protein
6%
Kinetic Parameter
5%
Lysosome
5%
Lean Body Weight
5%