Download Muscle physiology - POLYTECH High School

An Introduction to the Muscular System
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Before we can learn the names of the
muscles, we need to understand what
muscles are and what they do
Muscle physiology includes the following:
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Types of muscles
Functions of muscles
How muscles are named
Muscle strength vs. muscle endurance
Types of muscle contractions
Definitions for muscle movement
Sliding filament theory
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Muscles are classified by 3 types
◦ Cardiac muscle (involuntary)– found in the
heart
◦ Smooth muscle (involuntary) – found
primarily in blood vessels and the GI tract
◦ Skeletal muscle (voluntary) – also known
as striated muscle due to it’s lined
appearance
 435 skeletal muscles in the body
 Makes up 40-45% of our total body mass
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1. Movement
2. Heat production
3. Protection
4. Shock absorption
5. Coordination/protection of entrances and
exits
6. Aid in circulation
7. Maintain posture
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Function
Location
Size
# of heads
Shape
Attachments
Direction of fibers
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Muscles can be named
by the function they
perform
Pronator teres and
pronator quadratus
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Muscles can be named
by their size and where
they are located
Gluteus maximus
◦ Gluteus stems from the
Greek word gloutos,
which means buttock
◦ Maximus refers to the
size
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Muscles are often
named by the number
of heads they have
Biceps brachii
◦ A biceps is any muscle
that has 2 origins
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Muscles can be named
by their shape
Rhomboids
◦ Shaped like a rhombus
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Muscles can be named
by their attachment
points
Coracobrachialis
◦ Origin – coracoid process
of the scapula
◦ Insertion – shaft of the
humerus (bracchium is
the Latin term for arm)
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Muscles can be named
referring to the
direction in which their
fibers run
Rectus abdominis
The term rectus is
from Latin and means
straight
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Muscle strength – the
greatest amount of
force a muscle can
generate at any one
given time
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Muscle endurance – the
amount of work a
muscle can do over a
period of time
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Frontalis
Orbicularis Oculi
Temporalis
Zygomaticus
Orbicularis Oris
Buccinator
Masseter
Mentalis
Triangularis
Sternocleidomastoideus
Trapezius
Platysma
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Occipitalis
Suprahyoid
Infrahyoid
Levator scapulae
Pectoralis major
Rectus abdominus
Erector spinae
Latissimus dorsi
Serratus anterior
Internal oblique
External intercostal
Splenius
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The construction of muscle fibers give
muscles the ability to contract by shortening
the distance between the ends of the fibers
A muscle can perform 4 different types of
contractions
1. Muscle twitch
2. Tetanic contraction
3. Isometric contraction
4. Isotonic contraction
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A muscle twitch is quick, jerky response to a
stimulus
Often called a spasm or a tic
A reflex is a muscle twitch
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This is a more sustained and steady response
to a constant stimulus
Causes a maximal contraction of the muscle
with no relaxation
A charley horse is a tetanic contraction
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An increase in muscle tension without
accompanying muscle shortening
The muscle gets tense, but there is no
movement
Occurs when holding a weighted object in a
stationary position
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An increase in muscular tension resulting in
shortening of the muscle
This contraction causes flexion, extension,
abduction, adduction, circumduction,
rotation, etc.
◦ Concentric contraction – shortening, “positive work”
◦ Eccentric contraction – lengthening, “negative work”
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Origin – proximal attachment; more stationary
attachment; usually a broad attachment
Insertion – distal attachment; more movable
attachment; usually a smaller attachment
Tendon – connective tissue that connects muscle
to bone; fibrous, tough, elastic
Prime mover – muscle mainly responsible for a
movement (no one muscle ever acts alone);
concentric muscle during a movement
Synergist – muscle that helps the prime mover;
stabilizer; concentric contractor during
movement
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Antagonist – muscle opposite of the prime mover
and synergist muscles; eccentric contractor
during a movement
Motor unit – a single motor neuron (motor nerve
cell or fiber) plus the muscle cell it innervates
Threshold stimulus – minimal level of stimulation
from a motor neuron required to cause a muscle
fiber to contract; you are near this threshold
when you perform an isometric contraction
“All or none” principle – when a muscle fiber is
subjected to a threshold stimulus it contracts
completely or not at all
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Big Bucket
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Muscle fiber – muscle tissue cell; striated in
skeletal muscle
Fascicle – bundle of muscle fibers
Muscle belly – unit of skeletal muscle; multiple
bundles of fascicles
Actin – Thin protein myofilament in skeletal
muscle
Myosin – Thick protein myofilament in skeletal
muscle
Cross-bridges – lever that attach to the myosin
and actin myofilaments, pulling them together
during a muscle contraction; located on the
myosin
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Nerve impulse is released and calcium ions and
ATP are introduced, causing cross-bridges on the
myosin to “reach up” and contact the actin
myofilaments
Cross-bridge action slides the actin
myofilaments over the myosin, causing
shortening of the muscle and producing a muscle
contraction
When the stimulus and calcium ions are removed,
the myofilaments return to their resting positions
A fully contracted muscle shortens to 47% of its
resting length
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http://www.youtube.com/watch?v=Ct8AbZn_
A8A
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Muscle tissue
◦ Sarcomere = Section of muscle cell containing myosin
and actin
◦ Muscle fiber = 1 muscle cell
◦ Fascicle = Bundle of muscle fibers (cells)
◦ Muscle belly= Bundle of fascicles
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Connective tissue – elastic and fibrous
A muscle fiber is surrounded by endomysium
A fascicle is surrounded by perimysium
A muscle belly is surrounded by epimysium
Endomysium + Perimysium + Epimysium = Fascia
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All of the connective tissue (fascia) merges
together at the ends of the muscle fibers to
form tendons
Tendons attach the muscle to bone or to
another tendon
*Broad, flat tendons are called aponeuroses
*The belly of the muscle is what shortens
during muscle contraction