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Muscle Physiology

Muscle Physiology. Human Anatomy and Physiology University of Washington PMT. Muscle Tissue. Skeletal Muscle Cardiac Muscle Smooth Muscle. Cardiac Muscle. Branching cells One/two nuclei per cell Striated Involuntary Medium speed contractions. Smooth Muscle. Fusiform cells

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Muscle Physiology

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  1. Muscle Physiology Human Anatomy and Physiology University of Washington PMT

  2. Muscle Tissue • Skeletal Muscle • Cardiac Muscle • Smooth Muscle

  3. Cardiac Muscle • Branching cells • One/two nuclei per cell • Striated • Involuntary • Medium speed contractions

  4. Smooth Muscle • Fusiform cells • One nucleus per cell • Nonstriated • Involuntary • Slow, wave-like contractions

  5. Skeletal Muscle • Long cylindrical cells • Many nuclei per cell • Striated • Voluntary • Rapid contractions

  6. Skeletal Muscle • Produce movement • Maintain posture & body position • Support Soft Tissues • Guard entrance / exits • Maintain body temperature • Store nutrient reserves

  7. Skeletal Muscle Structure

  8. Skeletal Muscle Fiber

  9. Sarcomere

  10. Z line Z line

  11. Sarcomere Relaxed

  12. Sarcomere Partially Contracted

  13. Sarcomere Completely Contracted

  14. Neuromuscular Junction

  15. Single Fiber Tension • Length–tension relationship • -Number of pivoting cross-bridges depends on: • amount of overlap between thick and thin fibers • -Optimum overlap produces greatest amount of tension: • too much or too little reduces efficiency • -Normal resting sarcomere length: • is 75% to 130% of optimal length • The all–or–none principle • As a whole, a muscle fiber is either contracted or relaxed • Tension of a Single Muscle Fiber • Depends on • The number of pivoting cross-bridges • The fiber’s resting length at the time of stimulation • The frequency of stimulation

  16. Muscle Contraction Types Isotonic contraction Isometric contraction

  17. Muscle Contraction Types Isotonic contraction Isometric contraction

  18. Muscle Contraction Types Isotonic contraction Isometric contraction

  19. ATP as Energy Source

  20. Creatine + ATP ADP + Creatine phosphate Creatine phosphate + ADP ATP + Creatine Creatine Molecule capable of storing ATP energy

  21. Metabolism • Aerobic metabolism • 95% of cell demand • Kreb’s cycle • 1 pyruvic acid molecule  17 ATP • Anaerobic metabolism • Glycolysis  2 pyruvic acids + 2 ATP • Provides substrates for aerobic metabolism • As pyruvic acid builds converted to lactic acid

  22. Muscle Fatigue • Muscle Fatigue • When muscles can no longer perform a required activity, they are fatigued • Results of Muscle Fatigue • Depletion of metabolic reserves • Damage to sarcolemma and sarcoplasmic reticulum • Low pH (lactic acid) • Muscle exhaustion and pain

  23. Muscle Hypertrophy • Muscle growth from heavy training • Increases diameter of muscle fibers • Increases number of myofibrils • Increases mitochondria, glycogen reserves

  24. Muscle Atrophy • Lack of muscle activity • Reduces muscle size, tone, and power

  25. Steroid Hormones • Stimulate muscle growth and hypertrophy • Growth hormone • Testosterone • Thyroid hormones • Epinephrine

  26. Muscle Tonus • Tightness of a muscle • Some fibers always contracted

  27. Tetany • Sustained contraction of a muscle • Result of a rapid succession of nerve impulses

  28. Tetanus

  29. Refractory Period • Brief period of time in which muscle cells will not respond to a stimulus

  30. Refractory

  31. Refractory Periods Skeletal Muscle Cardiac Muscle

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