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Energy systems in muscle cellsMuscle fibres

During exercise when muscles do not get enough oxygen, lactate is produced. After exercise oxygen dept must be repaid. Slow-twitch muscles rely on aerobic respiration. Fast-twitch fibres generate ATP through glycolysis only.

Part of Human BiologyHuman Cells

Muscle fibres

The human body contains different types of muscle fibres:

  • Cardiac muscle - unique to the heart - never tires.
  • Involuntary muscles - work our internal organs - outside our control.
  • Voluntary muscles make the body move - attached to the skeleton (also called skeletal muscles) - can be controlled.

Skeletal muscle fibres

There are two types of skeletal muscle fibres:

  • fast-twitch - contract quickly - do not use oxygen well - tire quickly
  • slow-twitch - contract slowly - use oxygen well - keep going for a long time

The two types of fibre are different because they have different numbers of mitochondria, blood supplies and concentrations of the oxygen-storing protein myoglobin.

Slow-twitchFast-twitch
Speed of contractionSlowlyQuickly
Length of time contractions can be sustainedLong periods of timeShort periods of time
Activities used forLong distance runningSprinting
How they generate ATPAerobic respirationGlycolysis only
Number of mitochondriaManyFew
Blood supplyLargeLow
Myoglobin concentrationHighLow
Storage fuelFatsGlycogen
Speed of contraction
Slow-twitchSlowly
Fast-twitchQuickly
Length of time contractions can be sustained
Slow-twitchLong periods of time
Fast-twitchShort periods of time
Activities used for
Slow-twitchLong distance running
Fast-twitchSprinting
How they generate ATP
Slow-twitchAerobic respiration
Fast-twitchGlycolysis only
Number of mitochondria
Slow-twitchMany
Fast-twitchFew
Blood supply
Slow-twitchLarge
Fast-twitchLow
Myoglobin concentration
Slow-twitchHigh
Fast-twitchLow
Storage fuel
Slow-twitchFats
Fast-twitchGlycogen

For most people muscle tissue contains a combination of both slow and fast-twitch fibres. Athletes are more likely to have distinct fibre patterns dependent on which sporting activity they take part in.

Top sprinters have more 'fast-twitch' fibres. Endurance athletes tend to have more 'slow-twitch' fibres.