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CHAPTER 9-10

  1. Functions
    • Movement of the body (skeletal muscles).
    • Maintenance of posture (erector spinae).
    • Respiration (diaphragm & accessory muscles).
    • Production of body heat (shivering).
    • Communication (gap junctions in cardiac muscles).
    • Constriction of organs and vessels (smooth muscles).
    • Contraction of the heart (cardiac muscle).
  2. Excitability
    respond
  3. Contractility
    shorten with force
  4. Elasticity
    recoil
  5. Extensibility
    stretched
  6. Skeletal Muscle
    • Yes-Striations.
    • Cylindrical and very long.
    • Single: centrally located.
    • Involuntary and Voluntary.
    • Infraspinatus
  7. Cardiac Muscle
    • Yes-Striations.
    • Cylindrical and branched.
    • Single; centrally located.
    • Involuntary.
    • Heart.
  8. Smooth Muscle
    • No Striations. 
    • Spindle-shaped.
    • Single; centrally located.
    • Involuntary.
    • Walls of hollow organs, blood vessels, eyes, glands, and skin.
  9. Endomysium
    Surrounds muscle single fibers.
  10. Perimysium
    Surrounds fasciculi or fascicle.
  11. Epimysium
    Surrounds whole muscles (many fascicles).
  12. Fascia
    Surrounds individual muscles and groups of muscles.
  13. Neuromuscular Junction (NMJ)
    • Junction (synapse) between nerve and muscle.
    • 1. Synapse: Muscle, organ, and gland create a synapse. 
    • 2. Presynaptic membrane: belongs to neuron.
    • 3. Postypnaptic membrane: belongs to muscle cell. 
    • 4. Synaptic cleft: space or gap.
    • 5. Neurotransmitter (Acetylcholine - ACh) - Ligand chemical. 
    • 6. Acetylcholinesterase (AChE): breaks ACh to not allow receptors to bind anymore:
    • Acetic Acid
    • Choline
  14. Thick myofilament
    Made up of one protein: Myosin (head).
  15. Thin myofilament (3 proteins)
    • Made up of three proteins:
    • 1. Actin: G-actin - monomer; contains binding site for myosin head.
    • 2. Tropomyosin
    • 3. Troponin
  16. Tropomyosin
    Block myosin binding site on G-actin.
  17. Troponin
    • Binds tropomyosin
    • Binds Calcium
    • Binds G-actin
  18. Sarcomere
    • Most basic functional unit. Z disk to Z disk. dArk and lIght bands of a skeletal muscle cell. A-band: M-line and H-zone.
    • I-band: Z-disk and thin filaments.
  19. How many forms of actin do you have?
    • F-actin
    • G-actin
  20. Which actin is going to bind site for myosin head to form "cross-bridge"?
    G-actine
  21. Cardiac & skeletal muscles cells; calcium is going to bind to which protein?
    Troponin
  22. Smooth muscle cells; calcium is going to bind to a protein known as?
    Coagulate.
  23. Z-Disk
    • Allow attachment of thin (actin) myofilament. 
    • Allow attachment of thick (myosin) myofilament via thin filament.
  24. M-line
    Holds the thick (myosin) myofilament in place at the center.
  25. Alternating A band and I band are?
    Muscle Striations
  26. H zone
    A region where only thick (myosin rods) myofilaments are found.
  27. A band
    • Contain M line and H Zone.
    • Span the entire length of the thick (myosin) myofilament. 
    • Certain regions contain both thick and thin myofilaments. 
    • Consists of the dar band of alternating dark and light striation of striated muscles.
  28. I band
    • Contain Z-disk and thin (actin) myofilaments only.
    • Consist of the light band of alternating dark and light. Striation of striated muscles.
  29. Sliding Filament Model
    • 1. An action potential travels down motor neuron to presynaptic terminal causing Ca2+ channels to open. These Ca2+
    • channels are voltage-gated channels.
    • 2. Ca2+ causes synaptic vesicles to release acetylcholine (Ach) into synaptic cleft. Acetylcholinesterase (ACh-E) resign in
    • the synaptic cleft and can degrade ACh before it reaches the postsynapatic membrane.
    • 3. Acetylcholine binds to receptor sites on Na+ channels (ligand-gated) on the postsynaptic membrane (sarcolemma).
    • 4. Na+ channels open, and Na+ rushes into postsynaptic terminal (depolarization). This cause an action potential in the
    • postsynaptic membrane (muscle). Action potential travels to T-tubules (contains voltage-gated Ca2+ channels).
    • 5. This causes the release of stored Ca2+ from the sarcoplasmic reticulum and terminal cisterna of the muscle cell.
    • 6. This Ca2+ binds to troponin (skeletal & cardiac), calmodulin (smooth)
    • 7. Ca2+ binding to troponin causes tropomyosin to move exposing G-actin (contains myosin binding site).
    • 8. Myosin heads bind to G-actin (formation of cross-bridge).
    • 9. Myosin heads bend toward center of sarcomere (power-stroke).
    • 10. ATP is used to release the myosin head from the G-actin.
    • 11. This pattern cycle to form a muscle contraction.
  30. Ligand-gated channel (ACh)
    A channel that responds to ligand chemical.
  31. Voltage-gated channel
    • Action potential.
    • Open and close in response to a small voltage change across the plasma membrane (brought on by an action potential that recahed it).
  32. Resting membrane potential
    Cell at rest (no stimuli).
  33. Threshold
    Minimum amount of energy.
  34. Depolarization
    Up stroke of action potential. Intake of Sodium (Na+).
  35. Repolarization
    Down stroke of action potential. Release of Potasium (K+ ions).
  36. Hyperpolarization
    • Below minimum value. Overshoot of the re-polarization phase. 
    • Returning to Resting Membrane potential; Na+/K+ pump (3Na+ back out and 2K+ in).
  37. Sarcolemma
    Cell membrane of a muscle cell.
  38. Sarcoplasmic reticulum
    Store and release calcium.
  39. Sarcoplasm
    Cytoplasm of a muscle cell.
  40. Muscle Twitch or Contraction
    • Muscle contraction in response to a stimulus that causes action potential in one or more muscle fibers. 
    • Lag or latent
    • Contraction
    • Relaxation
  41. Lag or latent
    • Begins with stimulation of a muscle that last about 2 milliseconds
    • – Action potential sweeps across the sarcolemma and sarcoplasmic reticulum to release stored Ca2+.
    • – No tension is produced at this time.
  42. Contraction
    • This phase last about 15 milliseconds.
    • – Ca2+ binds to troponin exposing myosin-binding site on
    • G-actin and cross-bridge interactions are occurring.
    • – Power-stroke.
  43. Relaxation
    • – This phase last about 25 milliseconds.
    • – Ca2+ level is falling
    • – Myosin-binding sites on Actin are cover by Tropomyosin
    • – Decrease number of cross-bridge (presence of ATP)
  44. Muscle contraction
    • 1. Isometric: no change in length. 
    • 2. Isotonic Contraction: 
    • Concentric: Muscle shortens (flexibility)
    • Eccentric: Muscle lengthens (control release of dumbbells). 
    • 3. Muscle tone: constant tension by muscles for long periods of time.
  45. Energy Sources
    • Creatine phosphate (CP): 10 seconds
    • Anaerobic respiration: Up to 3 minutes.
    • Aerobic respiration: Hours.
  46. Nomenclature
    • 1. Location: pectoralis, gluteus, brachial, femoral
    • 2. Size: maximus, minimus, longus, brevis
    • 3. Shape: deltoid, quadratus, teres, trapezius
    • 4. Orientation: rectus, oblique
    • 5. Origin and insertion: sternocleidomastoid,
    • brachioradialis
    • 6. Number of heads: biceps, triceps, quadriceps
    • 7. Function: abductor, adductor, masseter
  47. Classes of Levers
    • Class I
    • Fulcrum (point of pivot) between
    • force (P) and weight (W)
    • – Seesaw
    • – Head movement at the atlantooccipital
    • joint
    • Class II
    • Weight is between fulcrum and pull
    • – Wheelbarrow
    • – Standing on toes;
    • metatarsophalangeal joint
    • Class III
    • Pull located between fulcrum and
    • weight
    • – Person using a shovel
    • – Most common: biceps brachii with
    • elbow as fulcrum
  48. Muscles of facial expression
    • Frontalis: Raises eyebrow and wrinkles forehead. Facial n. 
    • Occipitalis: Tenses and retracts scalp. Facial n.
  49. Orbital Region
    Orbicularis oculi: Closes eye. Facial n.
  50. Oral Region
    • Orbicularis oris: Closes lip. Facial n. 
    • Levator labii superioris alaeque nasi: Elevates ala of nose and upper lip. Facial n. 
    • Levator labii superioris: Elevates upper lip. Facial n.
  51. Muscles of mastication
    • Masseter: Elevates mandible. Trigenimal n. (V3). 
    • Temporalis: Elevates and retracts mandible. Trigenimal n. (V3). 
    • Medial pterygoid: Elevates mandible and side-to-side action with lat. pterygoid. Trigenimal n. (V3). 
    • Lateral pterygoid: Depresses and protracts mandible. Trigenimal n. (V3).
  52. Muscles that move the eyeball (extraocular muscles)
    • Superior rectus: Elevates eyeball. Oculomotor n. (AL3). 
    • Inferior rectus: Dpresses eyeball. Oculomotor n. (AL3). 
    • Lateral rectus: Laterally rotates eyeball. Abducens n. (LR6). 
    • Medial rectus: Medially rotates eyeball. Oculomotor (AL3). 
    • Inferior oblique: Elevates eye in adduction. Laterally rotates eye in abduction. Occulomotor n. (AL3). 
    • Superior oblique: Depresses eye in adduction. Medially rotates eye in abduction. Trochlear n. (SO4).
  53. Anterior muscles of the neck (suprahyoid)
    • Digastric (anterior belly): Depresses mandible and elevates hyoid bone. 
    • Digastric (posterior belly): Depresses mandible and elevates hyoid bone. 
    • Stylohyoid: Elevates hyoid bone. Origin; sytloid process. Insertion; hyoid bone (greater cornu). 
    • Mylohyoid: Elevates floor of mouth and tongue; depresses mandible.
    • Geniohyoid: Protracts hyoid bone, depresses mandible.
  54. Anterior muscles of the neck (infrahyoid)
    • Omohyoid (superior belly and inferior belly): Origin, superior border of scapula. Insertion; hyoid bone. Ansa cervicalis n.
    • Sternohyoid: Origin; manubrium and clavicle (medial end). Insertion; hyoid bone. Ansa cervicalis n. 
    • Sternothyroid: Origin; Manubrium and 1st coastal catrilage. Insertion; thryoid cartilage. Ansa cervicalis n. 
    • Thryrohyoid: Origin; thryroid cartilage. Insertion; hyoid bone. Hypoglossal n.
  55. Anterolateral muscles of the neck
    • Sternocleidomastoid: Origin; manubrium and clavicle (medial). Insertion; mastoid process. 
    • Together they flex head. 
    • Alone turns head to the contralateral aspect. 
    • Accessory n.
  56. Muscles of the abdomen
    • Medial:
    • Rectus abdominis
    • Lateral:
    • External abdominal oblique
    • Internal abdominal oblique
    • Transversus abdominis
  57. Erector Spinae - Spinalis Group
    • Spinanlis cervicis (not shown)
    • Spinalis thoracis
  58. Erector Spinae - Longissimus Group
    • Longissimus capitis 
    • Longissimus cervicis
    • Longissimus thoracis
  59. Erector Spinae - Iliocostalis Group
    • Iliocostalis cervicis
    • Iliocostalis thoracis
    • Iliocostalis lumborum
  60. Semispinalis Group
    • Semispinalis capitis
    • Semispinalis cervicis
    • Semispinalis thoracis
  61. Muscles of the perineum
    • Ischiocavernosus
    • Bulbospongiosus
    • Superficial transverse perineal
    • Deep Transverse perineal
    • Levator ani
    • External anal sphincter
  62. Muscles of the thenar (thumb) eminence
    • Opponens pollicis
    • Abductor pollicis brevis
    • Flexor pollicis brevis
  63. Adductor of the thumb
    Adductor pollicis
  64. Muscles of the hypothenar (pinky) eminence
    • Abductor digiti minimi 
    • Flexor digiti minimi brevis
    • Opponens digiti minimi
  65. Posterior muscles that move the arm
    Teres major
  66. Muscles of the rotator cuff
    • Subscapularis
    • Infraspinatus
    • Supraspinatus
    • Teres minor

    • S
    • I
    • T
    • S
  67. Which group is not part of the errector spinalis?
    Semispinalis
Author
roadcrush
ID
318485
Card Set
CHAPTER 9-10
Description
Anatomy/Physiology I
Updated

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