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CHAPTER 10 “ Muscle Tissue”

CHAPTER 10 “ Muscle Tissue”. Objectives Describe and identify the 3 major muscle groups (skeletal, cardiac and, smooth). Describe the general anatomy of muscles. Describe the ultra-structure of skeletal muscle and its role in muscle contraction.

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CHAPTER 10 “ Muscle Tissue”

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  1. CHAPTER 10“Muscle Tissue” Objectives Describe and identify the 3 major muscle groups (skeletal, cardiac and, smooth). Describe the general anatomy of muscles. Describe the ultra-structure of skeletal muscle and its role in muscle contraction. Describe nerve-muscle relationship, the motor unit and the neuromuscular junction. Define the physiologic fiber types of muscle.

  2. Functions of Muscle • Movement: skeletal, cardiac, and smooth muscles • Stability: skeletal muscle • Communication: skeletal muscle • Control of body openings and passages: skeletal and smooth muscles • Heat production: skeletal muscles

  3. Properties of Muscles • Excitability (responsiveness) respond to chemical, mechanical or electrical stimuli • Conductivity initiate events that lead to contraction. • Contractility ability to shorten substantially • Extensibility able to stretch between contractions. • Elasticity ability to return to original length after stretching

  4. Three muscle tissues • Skeletal muscle • Cardiac muscle 3. Smooth muscle

  5. Skeletal Muscle • Cells are long and cylindrical in shape • Cells are multi-nucleated • Cross-striations present • Under voluntary control • Contractile proteins: actin, myosin and tinin. • Regulatory proteins: troponin and tropomyosin. • Sarcomere is contractile unit of skeletal muscle; defined as the distance between 2 “Z” discs

  6. Connective tissues and fascicles • Myofibril- composed of bundles of myofilaments • Endomysium- reticular CT covering each muscle fiber and binding it to its neighbors. • Perimysium- fibrous CT covering muscle fascicles • Fascicles- bundles of muscle fibers surrounded by perimysium • Epimysium- covering of dense irregular CT surrounding the entire muscle

  7. Skeletal Muscle

  8. Skeletal Muscle Fascicle Arrangements • fusiform – thick in the middle and taper at the ends • parallel – muscle fibers are all parallel • pennate –fascicles are short and attach obliquely to a central tendon (feather shaped) • convergent – spread out as a fan or converge to a point • circular – muscle fibers arranged concentrically

  9. Fusiform parallel convergent uni- bi- multipennate circular

  10. Functional Groups of Muscles • prime mover or agonist –muscle whose contraction is responsible for a particular movement • synergists –muscles that assist the movement of the prime mover or agonist • antagonist –muscle whose action opposes that of the prime mover or agonist • fixators –stabilize the origin of the prime mover so it can move more efficiently. Origin - point of attachment where least movement occurs. Insertion – point of attachment with greatest movement.

  11. Intrinsic and extrinsic muscles • Muscles are at times grouped as to the regions where they are found and function. • Intrinsic muscles are localized to a specific area (i.e. hand, tongue, back, etc.). They function and are contained only within that area. • Extrinsic muscles extend into other areas and are responsible for movements of areas other than where they are attached.

  12. Terms to know and identify • Sarcolemma - plasma membrane covering each muscle cell. • Sarcoplasm - muscle cell cytoplasm. • Thick filaments – contractile protein myosin molecules, shaped like a golf club head. Thin filaments slide over thick filaments • Thin filaments – contractile protein actin molecules (f and G actin) also contain the regulatory proteinstropomyosin and troponin. • Elastic filaments - titin (connectin) keep thick and thin filaments aligned over one another for proper contraction to occur; comprise the “Z” line.

  13. Ultrastructure of skeletal muscle: sarcomere = distance between 2 “Z” lines.

  14. Myofilaments

  15. Muscle contraction

  16. Every muscle contraction is preceded by a nerve impulse from the brain or spinal cord. The impulse is transmitted by a motorneuron to each muscle fiber.

  17. Neuromuscular control • Skeletal muscle contraction is controlled by a nerve impulse (action potential) transmitted by the motor nerve from the brain or spinal cord. • A motor unit consists of all the muscle fibers controlled by a single motor neuron. • Fine control muscles (i.e. eyelid muscles) have fewer muscle fibers/ nerve. • A contraction is initiated by an action potential (nerve impulse) and followed by the release a chemical neurotransmitter at the neuromuscular junction (NMJ). • Neurotransmitter for skeletal muscle is acetylcholine.

  18. Neuromuscular control • Each muscle fiber is innervated by a single motor neuron • Contractions may be graded or full due to the number of muscle fibers that respond to the stimulus. The more fibers, the greater the muscle contraction • Synapse – functional connection between a nerve fiber and its target cell. • Neuromuscular junction – synapse between a motor nerve and a muscle fiber.

  19. Neuromuscular junction

  20. Neuromuscular Junction Synaptic knob, terminal or bouton – bulbous swelling at the end of a motor nerve above the motor end plate on the muscle fiber. • Synaptic cleft – gap between the synaptic knob and the motor end plate. • Synaptic vesicles – small packets of neurotransmitter chemical (e.g. acetylcholine, norepinephrine, etc.)

  21. SEM of Neuromuscular Junction

  22. Skeletal muscle fibers • Skeletal muscle is composed of 3 different fiber types: • Fiber type is based on the process of making ATP and how fast they contract. • Type I slow oxidative fibers (dark staining) • Type IIa fast oxidative fibers (lighter staining) • Type IIx fast glycolytic fibers (pale or no staining)

  23. Skeletal muscle fiber types

  24. Fiber type characteristics • Type I Slow oxidative: • Appear as thin, dark staining or red in color due to abundant myoglobin • Manufacture ATP by aerobic breakdown of glucose • Contract slowly and are resistant to fatigue. • Ex. back muscles and support muscles • Type IIa Fast oxidative: • Stain less darkly than Type I but slightly larger • Produce ATP via aerobic metabolism like Type I • Contract faster and more powerfully than Type I • Abundant in lower limbs contract for long periods

  25. Fiber type characteristics • Type IIx Fast glycolytic fibers • Stain a pale color contain due little myoglobin • Larger in diameter than other 2 types • Depend on anaerobic glycolysis to make ATP • Contract rapidly and fatigue easier • More prominent in upper limbs for large work loads

  26. Skeletal muscle fiber types

  27. Cardiac muscle Characterized by: - cross-striations - intercalated discs - uni-nucleate cells -automaticity

  28. Cardiac Muscle

  29. Smooth muscle • Characterized by: • Spindle shaped cells • Uni-nucleate cells • Involuntary control • Found in walls of hollow organs, blood vessels and glands

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