Keyphrases
Health-promoting Lifestyle
100%
Physiological Mechanism
100%
High-intensity Interval Training
100%
High-intensity Training
100%
Enhancement Effect
100%
Performance Enhancement
100%
Adaptive Response
100%
Human Skeletal muscle
100%
Skeletal muscle
36%
Adaptation
27%
High-intensity Exercise
18%
Exercise Performance
18%
Blood Pressure
18%
Exercise-induced
18%
Metabolic Perturbation
18%
Healthy Young
18%
Essential Hypertension
18%
Cellular Pathways
18%
Metabolic Stress
18%
Acute Exercise
18%
Mechanical Endurance
9%
Temperature Effect
9%
Normothermia
9%
Middle-aged
9%
Antioxidant Protection
9%
Mitochondrial Adaptation
9%
Endurance Exercise
9%
Capacity Efficiency
9%
Qualitative Change
9%
Skeletal muscle Mitochondria
9%
Mitochondrial Biogenesis
9%
Quantitative Change
9%
Respiratory Function
9%
Metabolic Health
9%
Older Men
9%
Training Intervention
9%
Acute Effects
9%
Effective Strategies
9%
Exercise Stimulus
9%
Initial Event
9%
Intense Exercise
9%
Mitochondrial Bioenergetics
9%
Scientific Community
9%
Antioxidant System
9%
Mechanical Efficiency
9%
Low Volume
9%
Metabolic Response
9%
Oxidative Stress
9%
Cardiovascular Health
9%
Muscle Temperature
9%
Human Studies
9%
Skeletal muscle Adaptation
9%
Intervention Studies
9%
Body Composition
9%
Molecular Events
9%
Aberrant Expression
9%
Oxidative Damage
9%
Dysregulated
9%
Exercise Protocol
9%
Exercise Bout
9%
Chronic Effects
9%
Hormetic Response
9%
Mitochondrial Dysfunction
9%
Mitochondrial Respiratory Function
9%
Hypertension
9%
Coupling Efficiency
9%
Hyperthermia
9%
Molecular Response
9%
Health-related
9%
Hypertensive
9%
Medicine and Dentistry
High Intensity Interval Training
100%
Adaptive Response
100%
Exercise
100%
Skeletal Muscle
100%
Doctor of Philosophy
27%
Essential Hypertension
18%
Exercise Intensity
18%
Antioxidant
18%
Hyperthermia
18%
Blood Pressure
18%
Metabolic Stress
18%
Mitochondrial Biogenesis
9%
Endurance Training
9%
Middle Age
9%
Cardiovascular System
9%
Mitochondrial Disorder
9%
Mitochondrial Dynamics
9%
Respiratory Physiology
9%
Oxidative Stress
9%
Intervention Study
9%
Human Study
9%
Muscle Mitochondrion
9%
Biochemistry, Genetics and Molecular Biology
Skeletal Muscle
100%
Adaptive Response
100%
Exercise
100%
High Intensity Interval Training
100%
Blood Pressure
18%
Body Temperature
18%
Exercise Intensity
18%
Bioenergy
9%
Human Study
9%
Mitochondrial Disorder
9%
Muscle Level
9%
Body Composition
9%
Respiratory Function
9%
Mitochondrial Biogenesis
9%
Oxidative Stress
9%
Endurance Training
9%
Mitochondrial Dynamics
9%
Mitochondrion
9%
Intervention Study
9%
Neuroscience
Adaptive Response
100%
Skeletal Muscle
100%
Hypertension
42%
Antioxidant
28%
Mitochondrial Biogenesis
14%
Mitochondrion
14%
Mitochondrial Dynamics
14%
Oxidative Stress
14%