Fatigue

Question 1

Fatigue (2)

Answer 1

• inability to maintain a power output or force during repeated muscle contractions
• protection mechanism

Question 2

Fatigue can be attributed to

Answer 2

disturbed homeostasis attributable to work and work environment

Question 3

Force decreases rapidly during

Answer 3

short term, high intensity exercise - 30s Wingate

Question 4

fatigue occurs from

Answer 4

disruption in the chain of events between CNS and muscle fibre

Question 5

two types of fatigue

Answer 5

central - brain, spinal cord
peripheral - neuromuscular junction
- muscle fibre

Question 6

peripheral fatigue

Answer 6

force or power deficit that occurs despite optimal activation of the muscle fibers by motoneurons - too frequent of AP

Question 7

where does peripheral fatigue begin

Answer 7

transition between peripheral nerve and alpha motor neuron

Question 8

central fatigue

Answer 8

Brain stops sending AP /stimulus

Question 9

causes of fatigue (6)

Answer 9

complex and interrelated

• depletion of phosphogen
• glycogen depletion
• hypoxia
• central and neurtal factors
• reactive oxygen species (free radicals produced by mitochondria)
• Ionic imbalance (Na&K, Ca&Pi, H&lactate

Question 10

fatigue depends on

Answer 10

type of exercise (intensity, duration)

Question 11

Depletion of phosphates are a result of and affects

Answer 11

results of depleted intracellar ATP and PC

sprinting, and strength exercise

Question 12

ATP concentration drops to

Answer 12

40% of resting levels

Question 13

PC concentrations drops to

Answer 13

15% of resting levels

Question 14

glycogen depletion limits

decreases production of

reduces

Answer 14

anaerobic glycolysis
pyruvate and oxaloacetate - limiting amt of FA that can be oxidized through beta oxidation
blood glucose limiting availability of glucose to the brain which could potentally impact coordination of neuromuscular pathways

Question 15

glycogen stores

Answer 15

muscle - 1-2% ~ 425g - more but less concentrated

liver - 8-10% `80g - more but higher concentration

Question 16

glycogen in other muscles

Answer 16

does not move around

Question 17

ionic imbalance of hydrogen accumulation and fatigue (3)

Answer 17

decreased activity of many enzymes - PFK, phosphorylate, APTase that are important for ATP production and muscle contraction

• impaired Ca2+ troponin binding
• activate pain receptors in muscles - to cause central fatigue (inhibitory mechanism)

Question 18

acidosis due to hydrogen accumulation and fatigue

Answer 18

not a significant factor

• low, non-physiological temps it induces significant fatigue
• physiological temmps fatigue was less pronounced

Question 19

why do buffering agents benefit performance

Answer 19

rid of acid to decrease central fatigue because of te pain receptors

Question 20

Ionic imbalance of Na/K

Answer 20

increased intracellular Na and increased extracellular K

Question 21

2 aftermath of Na/K imbalance

Answer 21

disrupt AP movement (depolarization/repolarization) alog sarcolemma and into T tubule
reduced excitability of muscle cells

Question 21

How doe imbalance of Na and k happen?

What one reduces more muscle force?

How can it be reversed?

Answer 21

Activation of muscle creates quick depolarization which induces ion movements

Elevating extracellular k

By adding lactate

Question 22

Ionic imbalance of accumulation of inorganic phosphate

Answer 22

Interferes with ca binding to troponin
it blocks the Ryanodine receptor which controls the release of ca from the sarcoplasmic reticulum
Moves into SR and forms a precipitate with Ca - sequesters ca so it’s not available for cross bridge cycling

Question 23

Hypoxia

Answer 23

Reduced oxygenation of hemoglobin units limit aerobic metabolism during high intensity aerobic exercise
More demand on anaerobic metabolism which leads to increased lactate and hydrogen

Question 24

Three factors that contribute to hypoxia

Answer 24

Arterial hypoxemia
Pollution
Altitude

Question 25

Mt Everest vo2max

Answer 25

25%of sea level

Question 26

What can happen with diminished oxygen

Answer 26

Exercise induced asthma

Question 27

Reactive oxygen species

What is it?

What does it do -3

Answer 27

Superoxide with an unpaired electron/free radicals
Damage cellular proteins, DNA
inhibit ca binding to troponin
Reuptake of ca into SR inhibited

Question 28

Central/neural fatigue definition

Answer 28

Exercise induced reduction in maximal voluntary contraction that is not companied by the same reduction in maximal evocable force

Question 29

MVC

Answer 29

Force generated with fdbk and encouragement when the subject believes it is maximal effort

Question 30

Maximum evocable force

Answer 30

Force generated by muscle or group of muscle when additional electrical stimulation does not augment force

Question 31

Central fatigue characterized by 2

Answer 31

Loss of drive/motivation - due to alterations in brain neurotransmitters (ratio of serotonin to dopamine) - serotonin associated with lethargy increase in serotonin and decrease in dopamine
Pain intolerance - pain receptors from afferent signals from hydrogen, brain refusing to send stimulus