Enery Transfer During Exercise

Question 1

Energy output on sustained exercise is …….X more than at rest

Answer 1

20-30X

Question 2

The contribution of different energy transfer systems differs depending on…? (3)

Answer 2

Intensity of exercise
Duration of exercise
Fitness of participant

Question 3

Immediate energy is attained from what system?

Answer 3

ATP - PCr system

Question 4

In the ATP-PCr system, what provides energy supply?

Answer 4

Intramuscular high energy phosphates:
ATP - Adenine Triphosphate
PCr - Phosphocreatine

Question 5

How much ATP and PCr does 1kg of skeletal muscle contain?

Answer 5

3-8mmol ATP

X5 more PCr

Question 6

Energy output in sprint running and swimming is ……X more times than at rest

Answer 6

120X

Question 7

For a 70kg person with muscle mass of 30kg, how much high energy phosphates?

Answer 7

570-690mmol

Question 8

Enough stored energy exists to:
Run at marathon pace for….s
Sprint for ….s
Walk briskly for….s

Answer 8

Marathon for 20s
Sprint for 5-8s
Walk briskly for 60s

Question 9

Which has a higher rate of energy transfer? Energy from intramuscular high energy phosphates or aerobic metabolism? And by how Much?

Answer 9

High energy phosphates - 4-8 times faster

Question 10

Where does energy for ATP replenishment come from?

Answer 10

Macronutrients in tissues and cellular fluid

Question 11

How is Intracellular metabolism measured?
Explain.
Advantage of this technique
How are results interpreted?

Answer 11

Nuclear Magnetic Resonance (NMR)

Uses magnetic field to identify chemical compounds in tissues

Not as intrusive as biopsy techniques

Results interpreted by looking at the ratio of inorganic phosphates (Pi) to PCr

Question 12

Which system is short term energy supply from?

Answer 12

The lactic-acid system

Question 13

In order for high intensity, strenuous activity to continue.. What must happen?

Answer 13

Rapid re-synthesis of high energy phosphates

Question 14

To phosphorylate ADP to ATP, energy comes from……. …….via …….. ……..

Answer 14

Muscle glycogen via anaerobic glycolysis

Question 15

Which has a higher rate of energy transfer? Energy from intramuscular high energy phosphates or anaerobic metabolism? And by how Much?

Answer 15

HEP’s - Energy transfer rate in anaerobic glycolysis is only 45% of high energy phosphate rate

Question 16

Product of anaerobic glycolysis

Answer 16

Lactate

Question 17

Anaerobic glycolysis can be viewed as a …….. Fuel

Answer 17

Reserve

Question 18

Why is warming down important after anaerobic exercise?

Answer 18

Minimises lactic acid accumulation

Question 19

Factors influencing lactate threshold? (4)

Answer 19

Low tissue O2
Reliance on glycolysis
Activation of fast twitch muscle fibres
Reduced lactate removal

Question 20

Blood lactate accumulates at every level of exercise intensity. True or False?

Answer 20

False. Only at moderate and above

Question 21

Why doesn’t lactate accumulate at light intensity exercise?

Answer 21

O2 consuming reactions meet the energy demanded. Any lactate becomes rapidly oxidised. Lactate production = lactate oxidation so levels remain stable.

Question 22

As a % of VO2max, what is the lactate threshold for a healthy untrained person?

Answer 22

55% VO2max

Question 23

Hypoxia is..

Answer 23

A lack of oxygen in tissues

Question 24

Effects of hypoxia on the cells

Answer 24

Lack of 02 & production of NADH above cells capacity means that electrons/ hydrogens can’t be shuttled down respiration chain.
Pyruvate then accepts the electrons/ hydrogens instead which creates LACTATE

Question 25

Relationship between fast twitch and slow twitch muscle fibres with lactate and pyruvate?
Enzyme involved
Why does this relate to exercise intensity?

Answer 25

In FTMF, lactate dehydrogenase favours the conversion of pyruvate to lactate
In STMF, lactate dehydrogenase favours the conversion of lactate to pyruvate,

More FTMF recruited as exercise intensity increases

Question 26

In elite athletes, does lactate threshold occur at a higher or lower % of their aerobic capacity?
At what %?
How can this be influenced? (3)

Answer 26

Higher.

80-90%

Training adaptations
More rapid rate of lactate removal
Genetic endowment

Question 27

How does endurance training effect mitochondria, aerobic & metabolism

Answer 27

Increases size and number of mitochondria
Increases the number of enzymes involved in aerobic metabolism which improves the ability to make ATP with fatty acid and glucose catabolism

Question 28

How can having a low lactate level extend the duration of high intensity aerobic exercise?

Answer 28

Conserves glycogen reserves

Question 29

LONG TERM ENERGY:

Which system?

Answer 29

Aerobic system

Question 30

When is the long term / aerobic system used?

Why?

Answer 30

When exercise lasts beyond several minutes

As glycolysis doesn’t make much ATP

Question 31

Any lactate produced in the aerobic system reconverts to ………. Via the ……… ……… In the ………..

Answer 31

Glucose
Cori cycle
Kidneys/liver

Question 32

Blood lactate doesn’t accumulate during steady rate ,metabolic conditions. TRUE OR FLASE?

Answer 32

True

Question 33

Theoretically a person could continue to exercise indefinitely if they had the will power. However, is assumes that …… ……. ……. …….. Is the only determinant. What are the limiting factors? (3)

Answer 33

Fluid loss
Electrolyte depletion
Maintenance of muscle glycogen (for exercise) and liver glycogen (for CNS)

Question 34

Fast twitch muscle fibres (2)
Contraction speeds
Capacities for glycolysis

Answer 34

Type IIa,
Rapid speed
Highest capacity

Type IIb,
Rapid speed
High capacity

Question 35

Type II fibres:

When do they become active?

They contribute to an increased …….. …….. When maintaining a constant speed during maximum effort movements

Depend solely on energy from ……..?

Answer 35

During change of pace and stop and go activities

Force output

Anaerobic metabolism

Question 36

Elite sprint runners possess ….% of FTMF

Answer 36

80%

Question 37

Slow twitch muscle fibres:

AKA

Contraction speed

Generate energy through …….. Pathways due to (2)

When are they used

Predominance of Slow twitch muscle fibres contribute to …..

Answer 37

Slow contention speed

Aerobic pathways due to (1) numerous enzymes (2) large mitochondria

Sustain continuous activities that need a steady state of aerobic energy transfer

Contributes to high blood lactate thresholds

Question 38

ElIte endurance runners possess ….% STMF

Answer 38

80%