The Muscular System
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Transcript of The Muscular System
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PowerPoint® Lecture Slide Presentation by Patty Bostwick-Taylor, Florence-Darlington Technical College
Copyright © 2009 Pearson Education, Inc., publishing as Benjamin Cummings
PART A6
The Muscular System
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Copyright © 2009 Pearson Education, Inc., publishing as Benjamin Cummings
The Muscular System
Muscles are responsible for all types of body movement
Three basic muscle types are found in the body
Skeletal muscle
Cardiac muscle
Smooth muscle
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Copyright © 2009 Pearson Education, Inc., publishing as Benjamin Cummings
Characteristics of Muscles
Skeletal and smooth muscle cells are elongated (muscle cell = muscle fiber)
Contraction of muscles is due to the movement of microfilaments
All muscles share some terminology
Prefixes myo and mys refer to “muscle”
Prefix sarco refers to “flesh”
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Copyright © 2009 Pearson Education, Inc., publishing as Benjamin Cummings
Comparison of Skeletal, Cardiac, and Smooth Muscles
Table 6.1 (1 of 2)
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Copyright © 2009 Pearson Education, Inc., publishing as Benjamin Cummings
Comparison of Skeletal, Cardiac, and Smooth Muscles
Table 6.1 (2 of 2)
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Copyright © 2009 Pearson Education, Inc., publishing as Benjamin Cummings
Skeletal Muscle Characteristics
Most are attached by tendons to bones
Cells are multinucleate
Striated—have visible banding
Voluntary—subject to conscious control
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Copyright © 2009 Pearson Education, Inc., publishing as Benjamin Cummings
Connective Tissue Wrappings of Skeletal Muscle
Cells are surrounded and bundled by connective tissue
Endomysium—encloses a single muscle fiber
Perimysium—wraps around a fascicle (bundle) of muscle fibers
Epimysium—covers the entire skeletal muscle
Fascia—on the outside of the epimysium
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Copyright © 2009 Pearson Education, Inc., publishing as Benjamin Cummings
Connective Tissue Wrappings of Skeletal Muscle
Figure 6.1
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Copyright © 2009 Pearson Education, Inc., publishing as Benjamin Cummings
Skeletal Muscle Attachments
Epimysium blends into a connective tissue attachment
Tendons—cord-like structures
Mostly collagen fibers
Often cross a joint due to toughness and small size
Aponeuroses—sheet-like structures
Attach muscles indirectly to bones, cartilages, or connective tissue coverings
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Copyright © 2009 Pearson Education, Inc., publishing as Benjamin Cummings
Skeletal Muscle Attachments
Sites of muscle attachment
Bones
Cartilages
Connective tissue coverings
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Copyright © 2009 Pearson Education, Inc., publishing as Benjamin Cummings
Smooth Muscle Characteristics
Lacks striations
Spindle-shaped cells
Single nucleus
Involuntary—no conscious control
Found mainly in the walls of hollow organs
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Copyright © 2009 Pearson Education, Inc., publishing as Benjamin Cummings
Smooth Muscle Characteristics
Figure 6.2a
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Copyright © 2009 Pearson Education, Inc., publishing as Benjamin Cummings
Cardiac Muscle Characteristics
Striations
Usually has a single nucleus
Branching cells
Joined to another muscle cell at an intercalated disc
Involuntary
Found only in the heart
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Copyright © 2009 Pearson Education, Inc., publishing as Benjamin Cummings
Cardiac Muscle Characteristics
Figure 6.2b
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Copyright © 2009 Pearson Education, Inc., publishing as Benjamin Cummings
Skeletal Muscle Functions
Produce movement
Maintain posture
Stabilize joints
Generate heat
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Copyright © 2009 Pearson Education, Inc., publishing as Benjamin Cummings
Microscopic Anatomy of Skeletal Muscle
Sarcolemma—specialized plasma membrane
Myofibrils—long organelles inside muscle cell
Sarcoplasmic reticulum—specialized smooth endoplasmic reticulum
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Microscopic Anatomy of Skeletal Muscle
Figure 6.3a
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Copyright © 2009 Pearson Education, Inc., publishing as Benjamin Cummings
Microscopic Anatomy of Skeletal Muscle
Myofibrils are aligned to give distinct bands
I band = light band
Contains only thin filaments
A band = dark band
Contains the entire length of the thick filaments
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Copyright © 2009 Pearson Education, Inc., publishing as Benjamin Cummings
Microscopic Anatomy of Skeletal Muscle
Figure 6.3b
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Copyright © 2009 Pearson Education, Inc., publishing as Benjamin Cummings
Microscopic Anatomy of Skeletal Muscle
Sarcomere—contractile unit of a muscle fiber
Organization of the sarcomere
Myofilaments
Thick filaments = myosin filaments
Thin filaments = actin filaments
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Copyright © 2009 Pearson Education, Inc., publishing as Benjamin Cummings
Microscopic Anatomy of Skeletal Muscle
Thick filaments = myosin filaments
Composed of the protein myosin
Has ATPase enzymes
Myosin filaments have heads (extensions, or cross bridges)
Myosin and actin overlap somewhat
Thin filaments = actin filaments
Composed of the protein actin
Anchored to the Z disc
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Microscopic Anatomy of Skeletal Muscle
Figure 6.3c
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Copyright © 2009 Pearson Education, Inc., publishing as Benjamin Cummings
Microscopic Anatomy of Skeletal Muscle
At rest, there is a bare zone that lacks actin filaments called the H zone
Sarcoplasmic reticulum (SR)
Stores and releases calcium
Surrounds the myofibril
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Microscopic Anatomy of Skeletal Muscle
Figure 6.3d
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Copyright © 2009 Pearson Education, Inc., publishing as Benjamin Cummings
Stimulation and Contraction of Single Skeletal Muscle Cells
Excitability (also called responsiveness or irritability)—ability to receive and respond to a stimulus
Contractility—ability to shorten when an adequate stimulus is received
Extensibility—ability of muscle cells to be stretched
Elasticity—ability to recoil and resume resting length after stretching
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Copyright © 2009 Pearson Education, Inc., publishing as Benjamin Cummings
The Nerve Stimulus and Action Potential
Skeletal muscles must be stimulated by a motor neuron (nerve cell) to contract
Motor unit—one motor neuron and all the skeletal muscle cells stimulated by that neuron
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Figure 6.4a
The Nerve Stimulus and Action Potential
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The Nerve Stimulus and Action Potential
Figure 6.4b
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The Nerve Stimulus and Action Potential
Neuromuscular junction
Association site of axon terminal of the motor neuron and muscle
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The Nerve Stimulus and Action Potential
Figure 6.5a
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The Nerve Stimulus and Action Potential
Synaptic cleft
Gap between nerve and muscle
Nerve and muscle do not make contact
Area between nerve and muscle is filled with interstitial fluid
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The Nerve Stimulus and Action Potential
Figure 6.5b
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Transmission of Nerve Impulse to Muscle
Neurotransmitter—chemical released by nerve upon arrival of nerve impulse
The neurotransmitter for skeletal muscle is acetylcholine (ACh)
Acetylcholine attaches to receptors on the sarcolemma
Sarcolemma becomes permeable to sodium (Na+)
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Transmission of Nerve Impulse to Muscle
Figure 6.5c
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Transmission of Nerve Impulse to Muscle
Sodium rushes into the cell generating an action potential
Once started, muscle contraction cannot be stopped
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Transmission of Nerve Impulse to Muscle
Figure 6.6
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The Sliding Filament Theory of Muscle Contraction
Activation by nerve causes myosin heads (cross bridges) to attach to binding sites on the thin filament
Myosin heads then bind to the next site of the thin filament and pull them toward the center of the sarcomere
This continued action causes a sliding of the myosin along the actin
The result is that the muscle is shortened (contracted)
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The Sliding Filament Theory of Muscle Contraction
Figure 6.7a–b
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The Sliding Filament Theory
Figure 6.8a
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The Sliding Filament Theory
Figure 6.8b
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The Sliding Filament Theory
Figure 6.8c