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Unit 4 Muscular System

Unit 4 Muscular System. 1. Introduction. A. All movements require muscle which are organs using chemical energy to contract. B. The three types of muscle in the body: skeletal smooth cardiac C. This chapter focuses on skeletal muscle. Structure of Skeletal Muscle.

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Unit 4 Muscular System

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  1. Unit 4 Muscular System 1

  2. Introduction A. All movements require muscle which are organs using chemical energy to contract. B. The three types of muscle in the body: skeletal smooth cardiac C. This chapter focuses on skeletal muscle.

  3. Structure of Skeletal Muscle A. Each muscle is an organ, comprised of: skeletal muscle tissue connective tissues nervous tissue blood 3

  4. Connective Tissue Coverings 1. Layers of dense connective tissue, called fascia, surround and separate each muscle. 2. This connective tissue extends beyond the ends of the muscle and gives rise to tendons that are fused to the periosteum of bones.

  5. Connective Tissue Coverings 3. Sometimes muscles are connected to each other by broad sheets of connective tissue called aponeuroses. 5

  6. Connective Tissue Coverings 4. The layer of connective tissue around each whole muscle is the epimysium… …the perimysium surrounds individual bundles (fascicles) within each muscle… …each muscle cell (fiber) is covered by a connective tissue layer called endomysium. Uhh… what?

  7. Study Analogy Pretend you are going to play a joke on someone and give them 100 pencils. The pencils will represent muscle fibers. First you wrap each individual pencil in tissue paper (dense tissue paper of course!). This would be endomysium. Then you take about 10 pencils in a bundle (a fascicle) and wrap them in paper (perimysium). After that you take all the bundles and wrap them in gift wrap (epimysium). But you are going to mail this joke, so you also have to wrap it in brown paper representing the fascia. 8

  8. Skeletal Muscle Fibers 1. Each muscle fiber is a single, long, cylindrical muscle cell. 9

  9. Skeletal Muscle Fibers 2. Beneath the sarcolemma (cell membrane) lies sarcoplasm (cytoplasm) with many mitochondria and nuclei; the sarcoplasm contains myofibrils. Candy Question: Why do muscle cells contain SO many mitochondria? 10

  10. Skeletal Muscle Fibers a. Thick filaments of myofibrils are made up of the protein myosin. b. Thin filaments of myofibrils are made up of the protein actin. c. The organization of these filaments produces striations. Striations cause contraction!! 11

  11. Skeletal Muscle Bands 3. In the myofibril, a sarcomereextends from one Z line to the next. a. There are different types of bands in the sacromere that cause contraction. I bands A bands 12

  12. Coloring Activity Color in your own filaments

  13. Skeletal Muscle Bands 4. Beneath the sarcolemma (cell membrane) of a muscle fiber lies the sarcoplasmicreticulum. a. The sarcoplasmic reticulum activate the muscle contraction mechanism when the fiber is stimulated. 14

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  15. Coloring Activity Pt. 2

  16. So, how does our nervous system activate our muscles? D. Neuromuscular Junction 1. The site where the motor neuron and muscle fiber meet is the neuromuscular junction. 17

  17. Motor Units 1. A motor neuron and the muscle fibers it controls make up a motor unit; when stimulated to do so, the muscle fibers of the motor unit contract all at once. All or Nothing 18

  18. Skeletal Muscle Contraction

  19. Skeletal Muscle Contraction A. Muscle contraction involves several components that result in the shortening of sarcomeres, and the pulling of the muscle against its attachments. 20

  20. Role of Myosin and Actin 1. Myosin consists of two twisted strands with globular cross-bridges projected outward along the strands. 2. Actin is a globular protein with myosin binding sites; tropomysosin and troponin are two proteins associated with the surface of the actin filaments. 21

  21. Role of Myosin and Actin 3. According to the sliding filament theory of muscle contraction, the myosin crossbridge attaches to the binding site on the actin filament and bends, pulling on the actin filament; it then releases and attaches to the next binding site on the actin, pulling again. 4. The energy for this process to occur comes from ATP! Contraction Video 22

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  23. Oxygen Supply and C.R. 1. Where does the muscle cell get the energy to contract? FROM ATP. To make ATP, cellular respiration must occur. 2. Hemoglobin in red blood cells carries oxygen to muscle. 3. The pigment myoglobin stores extra oxygen in muscle tissue. 24

  24. Oxygen Debt 1. During rest or moderate activity, there is enough oxygen to support aerobic (oxygen) respiration. This means your cells have the necessary O2 they need to make energy! 25

  25. Oxygen Debt 2. Oxygen deficiency may develop during strenuous exercise, and lactic acid accumulates as an end product of anaerobic respiration. a. Lactic acid can build up and cause burning. Anaerobic means there is NO O2, your cells try to carry out cellular respiration using JUST GLUCOSE. 26

  26. Oxygen Debt 3. Oxygen debt refers to the amount of oxygen that liver cells require to convert the accumulated lactic acid back into glucose, plus the amount that muscle cells need to resynthesize ATP and creatine phosphate to their original on centrations. 4. Repaying an oxygen debt may take several hours. Think of it as your body’s oxygen bank. 27

  27. Muscle Fatigue 1. When a muscle loses its ability to contract during strenuous exercise, it is referred to as fatigue. 2. Muscle fatigue usually arises from the accumulation of lactic acid in the muscle. a. A lowered pH as a result of accumulated lactic acid prevents the muscle from contracting. 28

  28. Muscle Fatigue 3. A muscle cramp occurs due to a lack of ATP required to return calcium ions back to the sarcoplasmic reticulum so muscle fibers can relax. 29

  29. Heat Production 1. Contraction of skeletal muscle represents an important source of heat for the body. 2. Much of the energy produced through the reactions of cellular respiration is lost as heat (another source of heat for the body). 30

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