Keyphrases
Human Skeletal muscle Cells
100%
Calcium Ion Homeostasis
100%
Rolling Manipulation
100%
Verapamil
91%
Static Pressure
75%
Group Pressure
33%
Ca2+
25%
Creatine Kinase Activity
25%
Culture Media
25%
Malondialdehyde Content
25%
Superoxide Dismutase Activity
25%
Pressure Groups
25%
Cell Injury
16%
Traditional Chinese Medicine
16%
Calcium Antagonists
16%
Injured Cells
16%
Normal Human
8%
Skeletal muscle
8%
Creatine Kinase
8%
Muscle Damage
8%
Metabolism
8%
Mediating Effect
8%
Popular
8%
Muscle Cells
8%
Calcium Ion
8%
Intracellular Ca2+
8%
Homeostasis
8%
Superoxide Dismutase
8%
Group Control
8%
Malondialdehyde
8%
Damage Degree
8%
Pathophysiological Factors
8%
Group Cell
8%
Hand Exposure
8%
Group Manipulation
8%
Continuous Pressure
8%
Myofascial Release Technique
8%
Skeletal muscle Injury
8%
Rolling Pressure
8%
Medicine and Dentistry
Calcium Ion
100%
Homeostasis
100%
Verapamil
100%
Skeletal Muscle Cell
100%
Superoxide Dismutase
36%
Malonaldehyde
36%
Creatine Kinase
36%
Cell Damage
18%
Biological Marker
18%
Skeletal Muscle
18%
Traditional Chinese Medicine
18%
Calcium Antagonist
18%
Muscle Injury
18%
Myofascial Release
9%
Myocyte
9%
Nursing and Health Professions
Calcium Ion
100%
Verapamil
100%
Creatine Kinase
36%
Malonaldehyde
36%
Superoxide Dismutase
36%
Culture Medium
27%
Muscle Injury
18%
Biological Marker
18%
Injury
18%
Calcium Antagonist
18%
Myofascial Release
9%
Neuroscience
Skeletal Muscle
100%
Verapamil
100%
Ion Homeostasis
100%
Creatine Kinase
36%
Superoxide Dismutase
36%
Cell Damage
18%
Traditional Chinese Medicine
18%
Metabolic Pathway
9%
Pharmacology, Toxicology and Pharmaceutical Science
Calcium Ion
100%
Verapamil
100%
Superoxide Dismutase
36%
Malonaldehyde
36%
Creatine Kinase
36%
Injury
18%
Biological Marker
18%
Traditional Chinese Medicine
18%
Calcium Antagonist
18%
Muscle Injury
18%
Normal Human
9%
Veterinary Science and Veterinary Medicine
Verapamil
100%
Skeletal Muscle
100%