Muscle Types  Smooth  blood vessels  autonomic  Striated  voluntary  skeletal  Cardiac  network  rhythmic.

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Presentation transcript:

Muscle Types  Smooth  blood vessels  autonomic  Striated  voluntary  skeletal  Cardiac  network  rhythmic

Muscle Classification  As many as eight types  Red (type I)  long term  slow contractions  White (type IIa)  short term  fast contractions  White (type IIb)  No change from one type to another  change within fast types

Muscle Classification cont…  Change in the nerve root supply will change the muscles twitch properties.  No gender differences.  No change in the relative % of each type with training.  Your birth determines your activity?

Sliding Filament  ATP is energy when split into ADP+P.  Electrical impulse (action potential) travels down the nerve and into T-tubules.  Depolarization occurs (sodium and potassium exchange). Local and millisecond time lapse.  AP stimulates the release of calcium.  Calcium binds to troponin.  Actin and myosin then combine.

Sliding Filament cont…  Rigor of muscle upon death?  Cross bridge cycle occurs.  Nerve impulse stops.  No calcium influx.  Allowing troponin to attach and inhibit actin-myosin attachment.

Neural Control  Motor unit is one nerve and all fibers it innervates.  1:1 or 1:1,000.  Large and small, fast and slow.  Fibers may lie scattered throughout the muscle and not all together.  Fiber diameter is related to work performed (hypertrophy?).  When one fiber is activated all fibers are activated.

0 Torque Min Max d/s Force Power

Concentric and eccentric.

Muscle force is proportional to physiologic cross-sectional area (PCSA). (mass?)

Muscle velocity is proportional to muscle fiber length.

Hypertrophy results primarily from the growth of each muscle cell, rather than an increase in the number of cells. The first measurable effect is an increase in the neural drive stimulating muscle contraction.