Exercising with insulin action: the “condition” of skeletal muscle and its influence on the insulin-sensitizing effect of a single bout of exercise

Keyphrases

• Skeletal muscle 100%
• Insulin Sensitizers 100%
• Single-bout 100%
• Insulin Action 100%
• Whole-body 28%
• Insulin 21%
• Fiber Type-specific 14%
• Regular Exercise Training 14%
• Muscle Mass 14%
• Training Status 14%
• Glucose Disposal 7%
• Exhaustive Exercise 7%
• Exercise Training 7%
• Glucose Oxidation 7%
• Rodents 7%
• Glucose Homeostasis 7%
• Specific Difference 7%
• Systemic Change 7%
• Glycemic Control 7%
• Human muscle Fibres 7%
• Glucose Transport 7%
• TBC1D4 7%
• Proteomic Approach 7%
• Muscle Groups 7%
• Fiber Composition 7%
• Glycogen 7%
• Human Body 7%
• Glucose Uptake 7%
• Active muscle 7%
• Response to Training 7%
• Exercise Benefits 7%
• Adaptation 7%
• During Exercise 7%
• Fiber Type 7%
• Overall Health 7%
• Insulin Resistance 7%
• Impaired Insulin Secretion 7%
• Glucose Phosphorylation 7%
• Induced Mechanism 7%
• Local Contraction 7%
• Signaling Axis 7%
• Muscle Metabolism 7%
• Glucose-stimulated Insulin Secretion 7%
• Low Activation 7%
• Inactive muscle 7%
• Human Skeletal muscle 7%
• Molecular Mechanism 7%
• Adaptive Training 7%
• Endurance Training 7%

Biochemistry, Genetics and Molecular Biology

• Skeletal Muscle 100%
• Exercise 75%
• Glucose Transport 75%
• AMP-activated Protein Kinase 25%
• TBC1D4 25%
• Proteomics 25%
• Glucose Homeostasis 25%
• Muscle Metabolism 25%
• Endurance Training 25%
• Glycemic Control 25%

Immunology and Microbiology

• Insulin 100%
• Skeletal Muscle 100%
• Muscle 62%
• Exercise 12%
• Glucose Transport 12%
• Glycemic Control 4%
• Muscle Metabolism 4%
• Proteomics 4%
• Endurance Training 4%
• Glucose Homeostasis 4%