• 00:20 1.
    index 1
  • 00:33 2.
    Goals of the Lecture
  • 00:03 3.
    Outlines
  • 00:38 4.
    Characteristics & Functions of Muscle
  • 01:00 5.
    Characteristics & Functions of Muscle
  • 01:17 6.
    Morphological Classification of Muscle
  • 00:45 7.
    Muscle Type and Activity
  • 00:03 8.
    Outlines
  • 00:13 9.
    Slide 10
  • 00:01 10.
    Outlines
  • 00:59 11.
    Shapes of Skeletal Muscle
  • 00:53 12.
    Skeletal Muscle Action
  • 02:01 13.
    Skeletal Muscle Action
  • 01:17 14.
    Slide 15
  • 01:28 15.
    Architecture of Skeletal Muscle
  • 00:45 16.
    Architecture of Skeletal Muscle
  • 00:50 17.
    Architecture of Skeletal Muscle
  • 01:36 18.
    Structure of Skeletal Myofiber1
  • 01:01 19.
    Structure of Skeletal Myofiber2
  • 00:47 20.
    Structure of Skeletal Myofiber3
  • 00:07 21.
    Architecture of Skeletal Muscle
  • 01:22 22.
    Thick Filament1
  • 00:00 23.
    Thick Filament2
  • 00:16 24.
    Thick Filament1
  • 01:19 25.
    Thick Filament2
  • 00:50 26.
    Slide 25
  • 00:26 27.
    Thick Filament3
  • 01:18 28.
    Thin Filament1
  • 02:09 29.
    Thin Filament2
  • 00:38 30.
    Structure of Sarcomere1
  • 03:19 31.
    Structure of Sarcomere2
  • 01:41 32.
    Architecture of Skeletal Muscle
  • 00:49 33.
    Architecture of Skeletal Muscle
  • 01:23 34.
    Sensory Receptors of Skeletal M.
  • 00:23 35.
    Structure of M. Spindle
  • 01:30 36.
    Structure of M. Spindle
  • 00:58 37.
    Structure of M. Spindle
  • 01:09 38.
    Structure of M. Spindle
  • 01:25 39.
    How to maintain the sensitivity of afferent (sensory) nerve during skeletal muscle contraction?
  • 01:06 40.
    Sensitivity Modulation(α-γ Coactivation)
  • 00:41 41.
    Skeletal Muscle Repair
  • 00:28 42.
    Architecture of Skeletal Muscle
  • 00:04 43.
    Outlines
  • 01:01 44.
    Sliding Filaments
  • 00:18 45.
    Sliding Filaments
  • 01:28 46.
    Slide 45
  • 01:12 47.
    Slide 46
  • 01:11 48.
    Example Question
  • 00:00 49.
    Example Question
  • 00:13 50.
    Example Question
  • 01:55 51.
    Example Question
  • 00:04 52.
    Outlines
  • 01:41 53.
    Slide 50
  • 00:42 54.
    Phases of M. Contraction
  • 00:33 55.
    Process of Skeletal Muscle Contraction
  • 00:46 56.
    Process of Skeletal Muscle Contraction
  • 00:43 57.
    Neuromuscular Junction1
  • 00:48 58.
    Neuromuscular Junction2
  • 01:19 59.
    Cosmetic Aesthetic Medicine
  • 01:10 60.
    Neuromuscular Junction3
  • 00:00 61.
    Neuromuscular Junction4
  • 00:00 62.
    Neuromuscular Junction5
  • 01:31 63.
    Neuromuscular Junction4
  • 01:00 64.
    Neuromuscular Junction5
  • 01:18 65.
    Neuromuscular Junction6
  • 02:39 66.
    Neuromuscular Junction Disease
  • 01:59 67.
    Process of Skeletal Muscle Contraction
  • 00:39 68.
    Events of M. Contraction
  • 01:26 69.
    Events of M. Contraction
  • 01:31 70.
    Molecular Mechanisms of Contraction
  • 03:50 71.
    Crossbridge Cycle1
  • 01:30 72.
    Crossbridge Cycle2
  • 00:25 73.
    Summary of Crossbridge Cycle
  • 02:09 74.
    Slide 69
  • 02:06 75.
    Process of Skeletal Muscle Contraction
  • 01:09 76.
    Process of Skeletal Muscle Relaxation
  • 01:18 77.
    Muscle Cramps
  • 00:04 78.
    Outlines
  • 00:47 79.
    Slide 74
  • 00:57 80.
    Skeletal Muscle Reflexes
  • 03:01 81.
    Monosynaptic Stretch Reflex
  • 01:35 82.
    Disynaptic Reflex
  • 00:58 83.
    Reciprocal Innervation
  • 00:05 84.
    Outlines
  • 02:02 85.
    Types of Muscle Contraction
  • 00:32 86.
    Isotonic Contraction With Different Loads
  • 00:11 87.
    Load-Velocity Relation
  • 01:00 88.
    Slide 83
  • 01:59 89.
    Different Response of M. Fiber vs. Whole Muscle
  • 00:12 90.
    Different Response of M. Fiber vs. Whole Muscle
  • 00:56 91.
    Motor Unit1
  • 01:07 92.
    Motor Unit2
  • 02:19 93.
    Motor Unit3
  • 01:13 94.
    Muscle Tone
  • 01:56 95.
    Frequency-Tension Relation1
  • 00:26 96.
    Frequency-Tension Relation2
  • 00:38 97.
    Muscle Force1
  • 01:26 98.
    Muscle Force2
  • 01:11 99.
    Length-Tension Relation1
  • 00:09 100.
    Slide 94
  • 02:23 101.
    Length-Tension Relation2
  • 02:58 102.
    Muscle Fatigue
  • 03:18 103.
    Causes of Muscular Fatigue
  • 00:05 104.
    Outlines
  • 03:15 105.
    Energy for Contraction1
  • 00:54 106.
    Energy for Contraction2
  • 00:49 107.
    Energy Sources in Working M.
  • 00:18 108.
    Slide 102
  • 01:09 109.
    Functions of ATP in Skeletal-Muscle Contraction
  • 03:12 110.
    Types of Skeletal Muscle Fiber1
  • 01:06 111.
    Types of Skeletal Muscle Fiber2
  • 00:23 112.
    Slide 106
  • 06:37 113.
    Types of Skeletal Muscle Fiber2
  • 00:47 114.
    Exercise Training on Adaptation of Muscle Fibers
  • 01:30 115.
    Exercise Training on Adaptation of Muscle Fibers
  • 00:50 116.
    Myofascial Pain
  • 00:10 117.
    Goals of the Lecture
  • 00:02 118.
    Outlines
  • 00:08 119.
    Smooth Muscle
  • 00:34 120.
    Structural Characteristics of Smooth M1
  • 01:43 121.
    Structural Characteristics of Smooth M2
  • 00:28 122.
    Structural Characteristics of Smooth M3
  • 02:05 123.
    Structural Characteristics of Smooth M4
  • 00:31 124.
    Structural Characteristics of Smooth M5
  • 00:53 125.
    Voltage-Gated Channels in Smooth M.
  • 00:06 126.
    Outlines
  • 00:41 127.
    Single Muscle Twitch
  • 02:35 128.
    Smooth Muscle Contraction
  • 00:30 129.
    Mechanisms of Smooth M. Relaxation1
  • 02:01 130.
    Mechanisms of Smooth M. Relaxation2
  • 02:06 131.
    Smooth M. Latch State
  • 00:28 132.
    Unique Mechanical Properties
  • 01:10 133.
    Difference in Contraction Mechanism Between Smooth M. & Striated M.
  • 00:04 134.
    Outlines
  • 00:11 135.
    Classification of Smooth Muscle
  • 00:51 136.
    Single-Unit Smooth Muscle1
  • 01:22 137.
    Single-Unit Smooth Muscle2
  • 00:00 138.
    Single-Unit Smooth Muscle3
  • 00:41 139.
    Single-Unit Smooth Muscle2
  • 01:56 140.
    Single-Unit Smooth Muscle3
  • 01:04 141.
    Multiunit Smooth Muscle1
  • 00:49 142.
    Multiunit Smooth Muscle2
  • 00:20 143.
    Goals of the Lecture
  • 00:00 144.
    Outlines
  • 00:06 145.
    Cardiac Muscle
  • 01:12 146.
    Cardiac Muscle
  • 01:29 147.
    Characteristics of the Cardiac M.
  • 00:29 148.
    Automaticity (Chronotropic effect)
  • 02:02 149.
    Conductivity (Dromotropic effect)
  • 02:15 150.
    Action Potentials of contractile cardiac cellsPhase 0: Rapid depolarization (Na+ channels open, Na+ in)Phase 1: Rapid, partial early repolarization (Na+ channels close)Phase 2: Prolonged period of slow repolarization (Ca2+ channels open, Ca2+ in; fast K+
  • 01:10 151.
    Excitability
  • 02:30 152.
    Contractility (Inotropic effect)
  • 01:30 153.
    Contractility
  • 01:11 154.
    Contractility
  • 00:37 155.
    Contractility
  • 01:12 156.
    Contractility
  • 04:14 157.
    Mechanism of Cardiac Muscle Excitation, Contraction, & Relaxation (Lusitropic effect)
  • 00:44 158.
    Slide 150
  • 01:19 159.
    Excitation Contraction: Cardiac vs. Skeletal M.
  • 00:18 160.
    Goals of the Lecture
  • 01:33 161.
    Comparison of Skeletal, Cardiac, and Smooth Muscle
  • 04:02 162.
    Comparison of Skeletal, Cardiac, and Smooth Muscle
  • 07:03 163.
    Comparison of Skeletal, Cardiac, and Smooth Muscle
  • 06:34 164.
    Comparison of Skeletal, Cardiac, and Smooth Muscle
  • 00:47 165.
    Slide 157
  • Index
  • Notes
  • Comment
  • Fullscreen
0913_碩博_Muscle 2022
Duration: 3:20:54, Browse: 336, Last Updated: 2022-09-14
    • 00:20 1.
      index 1
    • 00:33 2.
      Goals of the Lecture
    • 00:03 3.
      Outlines
    • 00:38 4.
      Characteristics & Functions of Muscle
    • 01:00 5.
      Characteristics & Functions of Muscle
    • 01:17 6.
      Morphological Classification of Muscle
    • 00:45 7.
      Muscle Type and Activity
    • 00:03 8.
      Outlines
    • 00:13 9.
      Slide 10
    • 00:01 10.
      Outlines
    • 00:59 11.
      Shapes of Skeletal Muscle
    • 00:53 12.
      Skeletal Muscle Action
    • 02:01 13.
      Skeletal Muscle Action
    • 01:17 14.
      Slide 15
    • 01:28 15.
      Architecture of Skeletal Muscle
    • 00:45 16.
      Architecture of Skeletal Muscle
    • 00:50 17.
      Architecture of Skeletal Muscle
    • 01:36 18.
      Structure of Skeletal Myofiber1
    • 01:01 19.
      Structure of Skeletal Myofiber2
    • 00:47 20.
      Structure of Skeletal Myofiber3
    • 00:07 21.
      Architecture of Skeletal Muscle
    • 01:22 22.
      Thick Filament1
    • 00:00 23.
      Thick Filament2
    • 00:16 24.
      Thick Filament1
    • 01:19 25.
      Thick Filament2
    • 00:50 26.
      Slide 25
    • 00:26 27.
      Thick Filament3
    • 01:18 28.
      Thin Filament1
    • 02:09 29.
      Thin Filament2
    • 00:38 30.
      Structure of Sarcomere1
    • 03:19 31.
      Structure of Sarcomere2
    • 01:41 32.
      Architecture of Skeletal Muscle
    • 00:49 33.
      Architecture of Skeletal Muscle
    • 01:23 34.
      Sensory Receptors of Skeletal M.
    • 00:23 35.
      Structure of M. Spindle
    • 01:30 36.
      Structure of M. Spindle
    • 00:58 37.
      Structure of M. Spindle
    • 01:09 38.
      Structure of M. Spindle
    • 01:25 39.
      How to maintain the sensitivity of afferent (sensory) nerve during skeletal muscle contraction?
    • 01:06 40.
      Sensitivity Modulation(α-γ Coactivation)
    • 00:41 41.
      Skeletal Muscle Repair
    • 00:28 42.
      Architecture of Skeletal Muscle
    • 00:04 43.
      Outlines
    • 01:01 44.
      Sliding Filaments
    • 00:18 45.
      Sliding Filaments
    • 01:28 46.
      Slide 45
    • 01:12 47.
      Slide 46
    • 01:11 48.
      Example Question
    • 00:00 49.
      Example Question
    • 00:13 50.
      Example Question
    • 01:55 51.
      Example Question
    • 00:04 52.
      Outlines
    • 01:41 53.
      Slide 50
    • 00:42 54.
      Phases of M. Contraction
    • 00:33 55.
      Process of Skeletal Muscle Contraction
    • 00:46 56.
      Process of Skeletal Muscle Contraction
    • 00:43 57.
      Neuromuscular Junction1
    • 00:48 58.
      Neuromuscular Junction2
    • 01:19 59.
      Cosmetic Aesthetic Medicine
    • 01:10 60.
      Neuromuscular Junction3
    • 00:00 61.
      Neuromuscular Junction4
    • 00:00 62.
      Neuromuscular Junction5
    • 01:31 63.
      Neuromuscular Junction4
    • 01:00 64.
      Neuromuscular Junction5
    • 01:18 65.
      Neuromuscular Junction6
    • 02:39 66.
      Neuromuscular Junction Disease
    • 01:59 67.
      Process of Skeletal Muscle Contraction
    • 00:39 68.
      Events of M. Contraction
    • 01:26 69.
      Events of M. Contraction
    • 01:31 70.
      Molecular Mechanisms of Contraction
    • 03:50 71.
      Crossbridge Cycle1
    • 01:30 72.
      Crossbridge Cycle2
    • 00:25 73.
      Summary of Crossbridge Cycle
    • 02:09 74.
      Slide 69
    • 02:06 75.
      Process of Skeletal Muscle Contraction
    • 01:09 76.
      Process of Skeletal Muscle Relaxation
    • 01:18 77.
      Muscle Cramps
    • 00:04 78.
      Outlines
    • 00:47 79.
      Slide 74
    • 00:57 80.
      Skeletal Muscle Reflexes
    • 03:01 81.
      Monosynaptic Stretch Reflex
    • 01:35 82.
      Disynaptic Reflex
    • 00:58 83.
      Reciprocal Innervation
    • 00:05 84.
      Outlines
    • 02:02 85.
      Types of Muscle Contraction
    • 00:32 86.
      Isotonic Contraction With Different Loads
    • 00:11 87.
      Load-Velocity Relation
    • 01:00 88.
      Slide 83
    • 01:59 89.
      Different Response of M. Fiber vs. Whole Muscle
    • 00:12 90.
      Different Response of M. Fiber vs. Whole Muscle
    • 00:56 91.
      Motor Unit1
    • 01:07 92.
      Motor Unit2
    • 02:19 93.
      Motor Unit3
    • 01:13 94.
      Muscle Tone
    • 01:56 95.
      Frequency-Tension Relation1
    • 00:26 96.
      Frequency-Tension Relation2
    • 00:38 97.
      Muscle Force1
    • 01:26 98.
      Muscle Force2
    • 01:11 99.
      Length-Tension Relation1
    • 00:09 100.
      Slide 94
    • 02:23 101.
      Length-Tension Relation2
    • 02:58 102.
      Muscle Fatigue
    • 03:18 103.
      Causes of Muscular Fatigue
    • 00:05 104.
      Outlines
    • 03:15 105.
      Energy for Contraction1
    • 00:54 106.
      Energy for Contraction2
    • 00:49 107.
      Energy Sources in Working M.
    • 00:18 108.
      Slide 102
    • 01:09 109.
      Functions of ATP in Skeletal-Muscle Contraction
    • 03:12 110.
      Types of Skeletal Muscle Fiber1
    • 01:06 111.
      Types of Skeletal Muscle Fiber2
    • 00:23 112.
      Slide 106
    • 06:37 113.
      Types of Skeletal Muscle Fiber2
    • 00:47 114.
      Exercise Training on Adaptation of Muscle Fibers
    • 01:30 115.
      Exercise Training on Adaptation of Muscle Fibers
    • 00:50 116.
      Myofascial Pain
    • 00:10 117.
      Goals of the Lecture
    • 00:02 118.
      Outlines
    • 00:08 119.
      Smooth Muscle
    • 00:34 120.
      Structural Characteristics of Smooth M1
    • 01:43 121.
      Structural Characteristics of Smooth M2
    • 00:28 122.
      Structural Characteristics of Smooth M3
    • 02:05 123.
      Structural Characteristics of Smooth M4
    • 00:31 124.
      Structural Characteristics of Smooth M5
    • 00:53 125.
      Voltage-Gated Channels in Smooth M.
    • 00:06 126.
      Outlines
    • 00:41 127.
      Single Muscle Twitch
    • 02:35 128.
      Smooth Muscle Contraction
    • 00:30 129.
      Mechanisms of Smooth M. Relaxation1
    • 02:01 130.
      Mechanisms of Smooth M. Relaxation2
    • 02:06 131.
      Smooth M. Latch State
    • 00:28 132.
      Unique Mechanical Properties
    • 01:10 133.
      Difference in Contraction Mechanism Between Smooth M. & Striated M.
    • 00:04 134.
      Outlines
    • 00:11 135.
      Classification of Smooth Muscle
    • 00:51 136.
      Single-Unit Smooth Muscle1
    • 01:22 137.
      Single-Unit Smooth Muscle2
    • 00:00 138.
      Single-Unit Smooth Muscle3
    • 00:41 139.
      Single-Unit Smooth Muscle2
    • 01:56 140.
      Single-Unit Smooth Muscle3
    • 01:04 141.
      Multiunit Smooth Muscle1
    • 00:49 142.
      Multiunit Smooth Muscle2
    • 00:20 143.
      Goals of the Lecture
    • 00:00 144.
      Outlines
    • 00:06 145.
      Cardiac Muscle
    • 01:12 146.
      Cardiac Muscle
    • 01:29 147.
      Characteristics of the Cardiac M.
    • 00:29 148.
      Automaticity (Chronotropic effect)
    • 02:02 149.
      Conductivity (Dromotropic effect)
    • 02:15 150.
      Action Potentials of contractile cardiac cellsPhase 0: Rapid depolarization (Na+ channels open, Na+ in)Phase 1: Rapid, partial early repolarization (Na+ channels close)Phase 2: Prolonged period of slow repolarization (Ca2+ channels open, Ca2+ in; fast K+
    • 01:10 151.
      Excitability
    • 02:30 152.
      Contractility (Inotropic effect)
    • 01:30 153.
      Contractility
    • 01:11 154.
      Contractility
    • 00:37 155.
      Contractility
    • 01:12 156.
      Contractility
    • 04:14 157.
      Mechanism of Cardiac Muscle Excitation, Contraction, & Relaxation (Lusitropic effect)
    • 00:44 158.
      Slide 150
    • 01:19 159.
      Excitation Contraction: Cardiac vs. Skeletal M.
    • 00:18 160.
      Goals of the Lecture
    • 01:33 161.
      Comparison of Skeletal, Cardiac, and Smooth Muscle
    • 04:02 162.
      Comparison of Skeletal, Cardiac, and Smooth Muscle
    • 07:03 163.
      Comparison of Skeletal, Cardiac, and Smooth Muscle
    • 06:34 164.
      Comparison of Skeletal, Cardiac, and Smooth Muscle
    • 00:47 165.
      Slide 157
    Location
    Folder name
    肌肉生理學
    Author
    賴亮全
    Branch
    賴亮全教授
    Created
    2022-09-14 09:02:50
    Last Updated
    2022-09-14 10:20:14
    Browse
    336
    Duration
    3:20:54