1. The Muscular System

2. Functions of Muscle Tissue Movement Facilitation Movement Facilitation Thermogenesis Thermogenesis Postural Support Postural Support Regulation of Organ Volume Regulation of Organ Volume Protects Internal Organs Protects Internal Organs Pumps Blood (HEART) Pumps Blood (HEART)

3. Characteristics of Muscle Tissue Contractility – able to shorten. Contractility – able to shorten. Extensibility (Flexibility) – able to lengthen. Extensibility (Flexibility) – able to lengthen. Elasticity – able to return to original shape. Elasticity – able to return to original shape. Excitability (Irritability) – able to respond to a stimulus. Excitability (Irritability) – able to respond to a stimulus.

4. Skeletal Muscle Attached to bones Attached to bones Striated appearance under a microscope Striated appearance under a microscope Voluntary control (conscious control) Voluntary control (conscious control) Multinucleated Multinucleated Myofilaments - contractile elements of each muscle fiber Myofilaments - contractile elements of each muscle fiber

5. Cardiac Muscle Forms the bulk of heart wall (Myocardium) Forms the bulk of heart wall (Myocardium) Striated Striated Involuntary (typically) Involuntary (typically) Fibers are quadrangular and branching Fibers are quadrangular and branching Cardiac fibers typically have a centrally located nucleus Cardiac fibers typically have a centrally located nucleus Sarcolemmas connected by intercalated discs Sarcolemmas connected by intercalated discs –Strengthens cardiac muscle tissue –Propagates an action potential from cell to cell through specialized structures on the intercalated discs called gap junctions

6. Smooth (Visceral) Muscle Located in walls of hollow internal surfaces such as: Located in walls of hollow internal surfaces such as: –blood vessels- stomach –urinary bladder- intestines Non-striated in appearance Non-striated in appearance Involuntary (typically) Involuntary (typically) Can be stretched to great lengths Can be stretched to great lengths Allows for tremendous size variability Allows for tremendous size variability

7. Smooth (Visceral) Muscle

9. Muscle Tissue Histology Myofilaments - structural components of myofibrils Myofilaments - structural components of myofibrils –Myosin - thick myofilaments –Actin - thin myofilaments

10. Skeletal Muscle Tissue Structures Epimysium – outermost layer covering muscle Epimysium – outermost layer covering muscle Perimysium – surrounds fascicle of muscle fibers Perimysium – surrounds fascicle of muscle fibers Fascicle – bundles of muscle fibers Fascicle – bundles of muscle fibers Endomysium – surrounds muscle fibers Endomysium – surrounds muscle fibers Sarcolemma – cell membrane of a muscle fiber Sarcolemma – cell membrane of a muscle fiber

11. Skeletal Muscle Tissue Structures T-tubule – tunnel from surface to center, action potentials move through these T-tubule – tunnel from surface to center, action potentials move through these Sarcoplasm – cytoplasm of muscle cells Sarcoplasm – cytoplasm of muscle cells Myofibrils – a bundle of contractile fibers within muscle cells Myofibrils – a bundle of contractile fibers within muscle cells Sarcoplasmic Reticulum – stores and releases calcium ions – muscle contraction Sarcoplasmic Reticulum – stores and releases calcium ions – muscle contraction

12. Skeletal Muscle Tissue Structures

13. Muscle Tissue Structures

14. Sarcomere

15. Regions of a Sarcomere

16. Myosin Thick myofilaments Thick myofilaments Occupy the A Band of the sarcomere Occupy the A Band of the sarcomere Overlap free ends of the actin myofilament Overlap free ends of the actin myofilament Shaped like a golf club Shaped like a golf club –Long, thick protein molecule (tail) –Globular head at the ends

17. Actin Thin myofilaments Thin myofilaments Anchored to the Z Line Anchored to the Z Line Two stranded protein molecule intertwined around each other Two stranded protein molecule intertwined around each other Associated with two regulatory proteins Associated with two regulatory proteins –Tropomyosin - long stranded protein molecule that follows the contour of actin –Troponin - protein located at regular interval along the tropomyosin that covers the active sites on actin. Has three subunits

18. Myofilaments

19. Muscle Action Potential An electrical impulse that originates at the motor end plate, travels along the length of the sarcolemma, down a transverse tubule, and causes the muscle to contract.

20. Sliding Filament Theory of Muscular Contraction Due to an action potential, the actin and myosin myofilaments slide past one another shortening the sarcomere Due to an action potential, the actin and myosin myofilaments slide past one another shortening the sarcomere No change in length of myofilaments No change in length of myofilaments

21. Sliding Filament Theory 1. Nerve impulse travels down T-tubule 1. Nerve impulse travels down T-tubule 2. Ca++ releases from sarcoplasmic reticulum 2. Ca++ releases from sarcoplasmic reticulum 3. Ca++ binds to troponin 3. Ca++ binds to troponin 4. Tropomyosin rotates exposing an active site 4. Tropomyosin rotates exposing an active site 5. Myosin head attaches to active site (cross bridge) 5. Myosin head attaches to active site (cross bridge) 6. ATP required for sliding of actin filament (contraction) 6. ATP required for sliding of actin filament (contraction) 7. ATP required for myosin head release (relaxation) 7. ATP required for myosin head release (relaxation)

22. Muscle Nerve Interaction Neuron - nerve cell Neuron - nerve cell Axon - long, threadlike process that transmits impulse away from cell body (may be up to 1 meter in length) Axon - long, threadlike process that transmits impulse away from cell body (may be up to 1 meter in length) Motor Unit - motor neuron and all the muscle fibers it innervates Motor Unit - motor neuron and all the muscle fibers it innervates Neuromuscular Junction - junction between axon terminal and muscle fiber Neuromuscular Junction - junction between axon terminal and muscle fiber

23. Muscle Nerve Interaction Motor End Plate - location on the muscle fiber at the end of an axon terminal Motor End Plate - location on the muscle fiber at the end of an axon terminal Synaptic End Bulb - distal end of axon terminal Synaptic End Bulb - distal end of axon terminal Synaptic Vesicles - membrane enclosed sacs within the synaptic end bulbs that store neurotransmitters Synaptic Vesicles - membrane enclosed sacs within the synaptic end bulbs that store neurotransmitters

24. Muscle Nerve Interaction Synaptic Cleft - space between axon terminal and motor end plate Synaptic Cleft - space between axon terminal and motor end plate Subneural Clefts - folds in sarcolemma along the synaptic gutter Subneural Clefts - folds in sarcolemma along the synaptic gutter Acetylcholine (Ach) - neurotransmitter released from synaptic vesicles that initiates an action potential in a muscle Acetylcholine (Ach) - neurotransmitter released from synaptic vesicles that initiates an action potential in a muscle

25. Neuromuscular Junction

28. Muscle Response to Nervous Stimuli All or None Principle All or None Principle –Once a threshold stimulus is applied to a motor unit the muscle fibers innervated by that motor unit will contract to their fullest potential Threshold Stimulus - the weakest stimulus from a neuron that will initiate a muscular contraction Threshold Stimulus - the weakest stimulus from a neuron that will initiate a muscular contraction

29. Muscle Contraction Events

31. Muscle Contraction Events Muscle Contraction Events

32. Muscle Origin and Insertion Origin Origin –Body segment with most mass –Usually more proximally located –Usually larger surface area of attachment Insertion Insertion –Body segment with least mass –Usually more distally located –Usually smaller surface area of attachment Gaster (Belly) Gaster (Belly) –Fleshy portion of the muscle between the tendons of the origin and insertion

33. Roles of Skeletal Muscles Agonist (Prime Mover) Agonist (Prime Mover) –Muscle responsible for the majority of force Antagonist Antagonist –Performs the opposite movement Synergist Synergist –Muscle that assists the agonist provides additional force provides additional force redirects the force of the agonist redirects the force of the agonist Fixator (Stabilizer) Fixator (Stabilizer) –Stabilizes a body segment so the prime mover can act more effectively

34. Selected Superficial Skeletal Muscles (Anterior View) Pectoralis major Pectoralis major Deltoid Deltoid Biceps brachii Biceps brachii Sternocleidomastoid Sternocleidomastoid Diaphragm Diaphragm Quadriceps Quadriceps –rectus femoris –vastus medialis –Vastus intermedius –vastus lateralis

35. Anterior Skeletal Muscles

36. Selected Superficial Skeletal Muscles (Posterior View) Trapezius Trapezius Triceps brachii Triceps brachii Gastrocnemius Gastrocnemius Latissimus dorsi Latissimus dorsi Hamstring Group –semimembranosus –biceps femoris –semitendinosus Gluteus maximus

37. Posterior Skeletal Muscles

38. Muscle Diseases and Disorders

39. Myalgia (Fibromyalgia) Painful disorders of muscles, tendons, and surrounding soft tissue Painful disorders of muscles, tendons, and surrounding soft tissue

40. Muscular Dystrophies Muscle destroying diseases characterized by the degeneration of individual muscle fibers Muscle destroying diseases characterized by the degeneration of individual muscle fibers Leads to progressive atrophy of skeletal muscles Leads to progressive atrophy of skeletal muscles Due to a genetic defect Due to a genetic defect

41. Shin Splints Pain in the lower leg Pain in the lower leg Tendonitis of the tibialis posterior muscle Tendonitis of the tibialis posterior muscle Inflammation of the periosteum Inflammation of the periosteum Stress fracture of the tibia Stress fracture of the tibia Exaggerated enlargement of muscles within the epimysium Exaggerated enlargement of muscles within the epimysium Pulling away of the periosteum from the underlying bone Pulling away of the periosteum from the underlying bone Treatment: Treatment: –RICE –strengthen tibialis anterior muscle

42. Sprains the forcible wrenching or twisting of a joint with partial or complete rupture or injury to joint attachments without dislocation the forcible wrenching or twisting of a joint with partial or complete rupture or injury to joint attachments without dislocation 1st Degree Sprain = stretching of ligaments 1st Degree Sprain = stretching of ligaments 2nd Degree Sprain = partial tearing of ligaments 2nd Degree Sprain = partial tearing of ligaments 3rd Degree Sprain = complete tear of ligaments 3rd Degree Sprain = complete tear of ligaments

43. Strains pulling or overstretching a muscle pulling or overstretching a muscle soft tissue (Muscle) injury soft tissue (Muscle) injury