Muscle Fibers (Fast/Slow-Twitch Type I, IIa, IIx)
slow twitch (fibers)
Endurance athletes possess large % of
fast twitch (fibers)
Power athletes possess large % of
Aerobic
Process that requires oxygen
slow & fast twitch
Skeletal fibers divided into two general categories based on how quickly they contract
Myoglobin
a protein that carries oxygen in muscle (maintain high level of energy for longer periods)
Fast-twitch Type IIa (fast glycolytic fibers)
also used for strength/power activities, can sustain longer than IIx fibers
glycolytic
breakdown of glucose
Fast-twitch Type IIa (fast glycolytic fibers)
can only sustain activity for less than 30 seconds
anaerobic
does not require oxygen (vs aerobic which means "with air")
type IIx
fast-glycolytic
type IIa
fast-oxidative glycolytic
Fast-twitch Type IIx (fast glycolytic fibers)
high contraction (speed) high Force high Size high Anaerobic low Aerobic low Efficiency low Fatigue (resistance) low Mitochondrial
Fast-twitch Type IIa (fast glycolytic fibers)
highly adaptable endurance training, long-term anaerobic activities i.e. swimming
Slow twitch - Type I fibers
long distance, Endurance athletes, aerobic activities
Type I: Slow-twitch (slow oxidative)
low contraction (speed) low Force low Size low Anaerobic (capacity) high Aerobic high Efficiency high Fatigue (resistance) high Mitochondrial
Aerobic capacity
max oxygen consumption by tissues during exercise
Fast-twitch Type IIa (fast glycolytic fibers)
med contraction (speed) med Force med Size med Anaerobic med Aerobic med Efficiency med Fatigue (resistance) med Mitochondrial content
slow oxidative
muscle fibers resistant to fatigue
mitochondria
powerhouses energy production for a cell (act like digestive system-takes in nutrients, breaks them down, and creates energy for cell)
aerobic metabolism
process of creating energy to fuel muscle activity with oxygen
Speed of Contraction Type I Low Speed of Contraction Type IIa Medium Speed of Contraction Type IIx High Force capacity I Low Force capacity IIa Medium Force capacity IIx High Fatigue resistance I High Fatigue resistance IIa Medium Fatigue resistance IIx Low Mitochondrial content I High Mitochondrial content IIa Medium Mitochondrial content IIx Low Size I Low Size IIa Medium Size IIx High Efficiency I High Efficiency IIa Medium Efficiency IIx Low Aerobic capacity I High Aerobic capacity IIa Medium Aerobic capacity IIx Low Anaerobic capacity I Low Anaerobic capacity IIa Medium Anaerobic capacity IIx High
Fast Twitch Size (diameter) Large Fast Twitch Aerobic/Oxidative Capacity Low Fast Twitch Contraction Speed Fastest/Power Fast Twitch Anaerobic/Glycolytic Capacity Highest Fast Twitch Myoglobin Low Fast Twitch Examples Superficial Gastroc Biceps Fast Twitch Fatigue Resistance Low Slow Twitch Name Type 1 (Oxidative) Slow Twitch Size (diameter) Small Slow Twitch Aerobic/Oxidative capacity -high Slow Twitch Contraction Speed - low Slow Twitch Anerobic/Glycolytic Capacity- Low Slow Twitch Myoglobin- High Slow Twitch Example Soleus Slow Twitch Fatigue Resistance - High
Type IIx -fast-twitch Type IIa-fast-twitch
Fast glycolytic fiber
type II
Fast-twitch
Fast-twitch Type IIx (fast glycolytic fibers)
short-term anaerobic activities i.e. sprinting, lifting heavy weights (activities lasting less than a minute)
Type I
slow twitch
myoglobin
storage of oxygen in muscle cell
aerobic metabolism
use of oxygen by cells
