Adaptations Flashcards
What are the consequences of short, high intensity exercise?
Cannot deliver extra oxygen and glucose to muscles in time —> short term energy used (ATP & creatine phosphate) —-> anaerobic respiration —-> lactate + H+ (acidosis = cramps)
(note: glucose-6-phosphate produced by muscle glycogenolysis can produce glucose without using ATP)
What are three key things the body needs to do to maintain life during exercise? What does the magnitude of this response depend on?
- meet acute oxygen and metabolic fuel needs of muscles
- dispose of CO2 and other waste products of metabolism
- maintain homeostasis
Magnitude:
- type of exercise (muscles used)
- intensity & duration of exercise
- physical condition/nutritional state of individual
What are the consequences of medium intensity exercise?
- glycolysis: insulin inserts GLUT4 to allow glucose to enter muscle, and glucagon stimulates glycogenolysis in the liver
- some fatty acids used (beta-oxidation)
- adrenaline stimulates glycogenolysis (by stimulating glycogen phosphorylase)
What are the consequences of long, low-intensity exercise?
Depletion of muscle glycogen —> liver glycogen used —-> fatty acids used
Slow decrease in insulin & glucagon, sharp increase in adrenaline & GH + slow increase in cortisol (stress response)
Cortisol stimulates lipolysis & gluconeogenesis (stimulates PEPCK & fructose-1,6-bisphosphatase)
What are the long-term effects of exercise?
- decreased heart rate (hypertrophy of left ventricle)
- muscle fibre hypertrophy & hyperplasia
- increased myoglobin (oxygen “storage”)
- better beta-oxidation capacity & glucose transport capacity
- increased glycogen storage
