Functions of the Muscular System 1.Produce body movements 2.Stabilize body positions 3.Regulate...
Transcript of Functions of the Muscular System 1.Produce body movements 2.Stabilize body positions 3.Regulate...
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Functions of the Muscular System
1. Produce body movements
2. Stabilize body positions
3. Regulate organ volume
4. Move substances within the body
5. Produce heat
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Properties of Muscle Tissue
1. Electrical excitability
2. Contractility
a. Isometric contraction: No shortening of muscle
b. Isotonic contraction: Shortening of muscle
3. Extensibility
4. Elasticity
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Three Types of Muscle Tissue that comprise the Muscular System
1. Skeletal muscle: creates the movement associated with bones and joints.
2. Smooth muscle: associated with hollow organs, blood vessels, and ducts.
3. Cardiac muscle: found within the heart where it creates the pumping action of the heart.
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Organization of Skeletal Muscles at the gross level
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Organization of Skeletal Muscles at the gross level
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Organization of Skeletal Muscles at the gross level
PerimysiumEndomysium
Muscle fiber
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Characteristics of Skeletal Muscle
1. Long cylindrical fibers that are multi-nucleated
2. Striated, composed of sarcomeres
3. Abundant sarcoplasmic reticulum for Ca 2+ storage
4. Contains transverse tubules
5. No gap junctions between cells
6. No autorhythmicity, voluntary nervous control
7. Fast speed of contraction
8. Acetylcholine regulation
9. Limited regeneration via satellite cells
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Organization of Skeletal Muscles at the microscopic level
Sarcolemma: cytoplasmic membrane plus endomysium
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Organization of Skeletal Muscles at the microscopic level
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Organization of Skeletal Muscles at the microscopic level
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Organization of Skeletal Muscles at the microscopic level:
Contractile Proteins
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Organization of Skeletal Muscles at the microscopic level
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Organization of Skeletal Muscles at the microscopic level
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Characteristics of Cardiac Muscle
1. Branched cylindrical fibers with one centrally-located nucleus
2. Intercalated discs join neighboring fibers, contain gap junctions
3. Striated, composed of sarcomeres
4. Some sarcoplasmic reticulum for Ca 2+ storage
5. Contains transverse tubules aligned with z-disc
6. Autorhythmicity, involuntary nervous control
7. Moderate speed of contraction
8. Acetylcholine, norepinephrine regulation
9. No regeneration
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Organization of Cardiac Muscles at the microscopic level
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Organization of Cardiac Muscles at the microscopic level
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Characteristics of Smooth Muscle
1. Spindle-shaped fibers with single nucleus
2. Not striated, not composed of sarcomeres
3. Only scant sarcoplasmic reticulum for Ca 2+ storage
4. Contains no transverse tubules
5. Gap junctions between cells in visceral organs
6. Autorhythmicity, involuntary nervous control
7. Slow speed of contraction
8. Acetylcholine, norepinephrine regulation
9. Considerable regeneration via spericytes
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Histology of Smooth Muscle
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Histology of Smooth Muscle
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Histology of Smooth Muscle
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Histology of Smooth Muscle
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Histology of Smooth Muscle
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1. Action potential (electrical stimulation) from somatic (motor) nerve stimulates skeletal muscle fibers (cells) at neuromuscular junction
2. “AP” causes the opening of Na+ channels on the sarcolemma thus causing a wave of depolarization to travel from the neuromuscular junction.3. Depolarization event is communicated deep into the sarcoplasm via t-tubules.4. Depolarization of sarcoplasmic reticulum causes the opening of Ca2+ channels and the subsequent release of
calcium from sarcoplasmic reticulum 5. Calcium binds to troponin, troponin molecules change
shape causing tropomyosin to move off of crossbridge binding sites on actin
Sequence of Events in Skeletal Muscle Contraction
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Sequence of Events in Skeletal Muscle Contraction
6. Myosin crossbridges bind to crossbridge binding sites on actin
7. ATPase acts on ATP in the binding site on the myosin to convert it into ADP + Pi + ENERGY
8. Released kinetic energy causes a “power-stroke” which causes actin to slide over myosin (i.e. a contraction occurs) 9. Sarcolemma repolarizes due to the opening of potassium channels.
10. Calcium channels close and an active transport pump carries calcium back to sarcoplamic reticulum, troponin returns to pre-calcium shape, and ATP reforms to release the actin-myosin bond
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1. Action potential (electrical stimulation) from somatic (motor) nerve stimulates skeletal muscle fibers (cells) at neuromuscular junction
2. “AP” causes the opening of Na+ channels on the sarcolemma thus causing a wave of depolarization to travel from the neuromuscular junction.3. Depolarization event is communicated deep into the sarcoplasm via t-tubules.4. Depolarization of sarcoplasmic reticulum causes the opening of Ca2+ channels and the subsequent release of
calcium from sarcoplasmic reticulum 5. Calcium binds to troponin, troponin molecules change shape causing tropomyosin to move off of crossbridge binding
sites on actin
Sequence of Events in Skeletal Muscle Contraction
![Page 26: Functions of the Muscular System 1.Produce body movements 2.Stabilize body positions 3.Regulate organ volume 4.Move substances within the body 5.Produce.](https://reader030.fdocuments.us/reader030/viewer/2022032723/56649d1b5503460f949f081e/html5/thumbnails/26.jpg)
Neuromuscular junction
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Neuromuscular junction, microscopic view
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1. Action potential (electrical stimulation) from somatic (motor) nerve stimulates skeletal muscle fibers (cells) at neuromuscular junction
2. “AP” causes the opening of Na+ channels on the sarcolemma thus causing a wave of depolarization to travel from the neuromuscular junction.3. Depolarization event is communicated deep into the sarcoplasm via t-tubules.4. Depolarization of sarcoplasmic reticulum causes the opening of Ca2+ channels and the subsequent release of
calcium from sarcoplasmic reticulum 5. Calcium binds to troponin, troponin molecules change shape causing tropomyosin to move off of crossbridge binding
sites on actin
Sequence of Events in Skeletal Muscle Contraction
![Page 29: Functions of the Muscular System 1.Produce body movements 2.Stabilize body positions 3.Regulate organ volume 4.Move substances within the body 5.Produce.](https://reader030.fdocuments.us/reader030/viewer/2022032723/56649d1b5503460f949f081e/html5/thumbnails/29.jpg)
Sarcolemma membrane states
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Action Potentials on the Sarcolemma
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1. Action potential (electrical stimulation) from somatic (motor) nerve stimulates skeletal muscle fibers (cells) at neuromuscular junction
2. “AP” causes the opening of Na+ channels on the sarcolemma thus causing a wave of depolarization to travel from the neuromuscular junction.3. Depolarization event is communicated deep into the sarcoplasm via t-tubules.4. Depolarization of sarcoplasmic reticulum causes the opening of Ca2+ channels and the subsequent release of
calcium from sarcoplasmic reticulum 5. Calcium binds to troponin, troponin molecules change shape causing tropomyosin to move off of crossbridge binding
sites on actin
Sequence of Events in Skeletal Muscle Contraction
![Page 32: Functions of the Muscular System 1.Produce body movements 2.Stabilize body positions 3.Regulate organ volume 4.Move substances within the body 5.Produce.](https://reader030.fdocuments.us/reader030/viewer/2022032723/56649d1b5503460f949f081e/html5/thumbnails/32.jpg)
Organization of Skeletal Muscles at the microscopic level
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1. Action potential (electrical stimulation) from somatic (motor) nerve stimulates skeletal muscle fibers (cells) at neuromuscular junction
2. “AP” causes the opening of Na+ channels on the sarcolemma thus causing a wave of depolarization to travel from the neuromuscular junction.3. Depolarization event is communicated deep into the sarcoplasm via t-tubules.4. Depolarization of sarcoplasmic reticulum causes the opening of Ca2+ channels and the subsequent release of
calcium from sarcoplasmic reticulum 5. Calcium binds to troponin, troponin molecules change shape causing tropomyosin to move off of crossbridge binding
sites on actin
Sequence of Events in Skeletal Muscle Contraction
![Page 34: Functions of the Muscular System 1.Produce body movements 2.Stabilize body positions 3.Regulate organ volume 4.Move substances within the body 5.Produce.](https://reader030.fdocuments.us/reader030/viewer/2022032723/56649d1b5503460f949f081e/html5/thumbnails/34.jpg)
Calcium Troponin-Tropomyosin Interaction
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Sequence of Events in Skeletal Muscle Contraction
6. Myosin crossbridges bind to crossbridge binding sites on actin
7. ATPase acts on ATP in the binding site on the myosin to convert it into ADP + Pi + ENERGY
8. Released kinetic energy causes a “power-stroke” which causes actin to slide over myosin (i.e. a contraction occurs) 9. Sarcolemma repolarizes due to the opening of potassium channels.
10. Calcium channels close and an active transport pump carries calcium back to sarcoplasmic reticulum, troponin return to pre-calcium shape, and ATP reforms to release the actin-myosin bond
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Actin-Myosin Interaction
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Organization of Skeletal Muscles at the microscopic level
I bandA band
Sarcomere
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Results of actin-myosin interaction
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Sequence of Events in Skeletal Muscle Contraction
6. Myosin crossbridges bind to crossbridge binding sites on actin
7. ATPase acts on ATP in the binding site on the myosin to convert it into ADP + Pi + ENERGY
8. Released kinetic energy causes a “power-stroke” which causes actin to slide over myosin (i.e. a contraction occurs) 9. Sarcolemma repolarizes due to the opening of potassium channels.
10. Calcium channels close and an active transport pump carries calcium back to sarcoplasmic reticulum, troponin return to pre-calcium shape, and ATP reforms to release the actin-myosin bond
![Page 40: Functions of the Muscular System 1.Produce body movements 2.Stabilize body positions 3.Regulate organ volume 4.Move substances within the body 5.Produce.](https://reader030.fdocuments.us/reader030/viewer/2022032723/56649d1b5503460f949f081e/html5/thumbnails/40.jpg)
Action Potentials on the Sarcolemma
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Sarcolemma membrane states
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Sequence of Events in Skeletal Muscle Contraction
6. Myosin crossbridges bind to crossbridge binding sites on actin
7. ATPase acts on ATP in the binding site on the myosin to convert it into ADP + Pi + ENERGY
8. Released kinetic energy causes a “power-stroke” which causes actin to slide over myosin (i.e. a contraction occurs) 9. Sarcolemma repolarizes due to the opening of Potassium channels.
10. Calcium channels close and an active transport pump carries calcium back to sarcoplasmic reticulum, troponin return to pre-calcium shape, and ATP reforms to release the actin-myosin bond
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Return of Calcium into the Sarcoplasmic Reticulum