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Muscular System

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Muscular System Where s the beach? Did you buy your tickets? Fast Fibers So named because they can contract in 0.01 seconds or less after stimulation. – PowerPoint PPT presentation

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Title: Muscular System


1
Muscular System
  • Wheres the beach?
  • Did you buy your tickets?

2
Muscle Functions
  • Production of Movement
  • Movement of body parts and of the environment
  • Movement of blood through the heart and the
    circulatory vessels.
  • Movement of food (and, subsequently, food waste)
    through the GI tract, of fluids (urine, sperm,
    bile, etc), of a newborn through the birth canal

3
Muscle Functions
  • Maintenance of posture
  • Muscle contraction is constantly allowing us to
    remain upright.
  • Right now?
  • Thermogenesis
  • Generation of heat. Occurs via shivering an
    involuntary contraction of skeletal muscle.

4
Muscle Functions
  • Stabilization of joints
  • Muscles keep the tendons that cross the joint
    nice and taut.
  • Maintains the integrity of the joint.

All the things muscles do fall under one of these
4 categories.
5
3 Types of Muscle Tissue
6
Characteristics of Muscle Tissue
  • Excitability
  • The ability to receive and respond to a stimulus
  • In skeletal muscle, the stimulus is a
    neurotransmitter (chemical signal) release by a
    neuron (nerve cell).
  • In smooth muscle, the stimulus could be a
    neurotransmitter, a hormone, stretch, ?pH, ?Pco2,
    or ?Po2. (the symbol ? means a change in)
  • In cardiac muscle, the stimulus could be a
    neurotransmitter, a hormone, or stretch.

7
Characteristics of Muscle Tissue
  • Contractility
  • The ability to shorten forcibly when adequately
    stimulated.
  • This is the defining property of muscle tissue.
  • Extensibility
  • The ability to be stretched
  • Elasticity
  • The ability to recoil and resume original length
    after being stretched.

8
Skeletal Muscle the organ
  • Has nerves and blood vessels
  • Surrounded by a layer of dense irregular
    connective tissue known as the epimysium.(epi ?,
    mysiummuscle).

9
Skeletal Muscle the organ
  • Epimysium surrounds several bundles known as
    fascicles.
  • Each fascicle is a bundle of super-long skeletal
    muscle cells (muscle fibers),
  • Each muscle cell extends the length of the whole
    muscle organ

10
In this photomicrograph, you should notice the
epimysium on the left, the multiple fascicles,
the translucent perimysium partitioning them ,
and the multiple muscle fibers making up the
fascicles.
11
Microanatomy
  • Each muscle fiber contains rodlike structures
    called myofibrils that extend the length of the
    cell.
  • The myofibrils contain 2 filaments actin (thin)
    and myosin (thick)

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Microanatomy cont.
  • Thick myofilaments are made of the protein myosin

A single myosin protein resembles 2 golf clubs
whose shafts have been twisted about one another
About 300 of these myosin molecules are joined
together to form a single thick filament
14
Microanatomy cont.
  • Each thin filament is made up of 3 different
    types of protein actin, tropomyosin, and
    troponin.
  • This strand is a polymer that resembles a string
    of beads. Each bead is the globular protein
    actin. On each actin subunit, there is a myosin
    binding site.

15
Note the relationship between the thin and thick
filaments
16
Microanatomy cont.
  • Each myofibril is made up 1000s of repeating
    individual units known as sarcomeres (pictured
    below)
  • Each sarcomere is an ordered arrangement of thick
    and thin filaments..

17
Muscle Contraction The Sliding Filament
Hypothesis
  • Place your right palm on the back of your left
    hand. Now slide your right palm toward your left
    elbow.
  • What happened to the distance between your
    elbows?
  • It got shorter!
  • This is how muscle contraction occurs.
  • The thin filaments slide over the thick
    filaments. This pulls the Z discs closer
    together. When all the sarcomeres in a fiber do
    this, the entire fiber gets shorter which pulls
    on the endomysium, perimysium, epimysium and
    attached tendon and then pulls on the bone.
    Voila, we have movement.

18
Skeletal Muscle Attachments
  • Most span joints and are attached to bones.
  • The attachment of the muscle to the immoveable
    bone in a joint is its origin, while the
    attachment to the moveable bone is its insertion.

19
Here are 2 electron micrographs of the same
sarcomere. Do you see the Z discs, A band, H
zone, M line, and I bands? How do the 2 pictures
differ? What happened?
20
Sliding Filaments
  • We can actually divide the whole process of
    muscle contraction into 4 steps
  • Excitation
  • Excitation-contraction coupling
  • Contraction
  • Relaxation

21
QUICK THOUGHT QUESTION In this sculpture, why
are the lions back legs paralyzed even though
they were not injured?
22
Skeletal Muscle Attachments
  • Most span joints and are attached to bones.
  • The attachment of the muscle to the immoveable
    bone in a joint is its origin, while the
    attachment to the moveable bone is its insertion.

23
Muscle Diagrams
  • Label major muscles
  • Label origin and insertion points

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Muscle Fiber Types
  • 2 main types
  • Slow fibers
  • Fast fibers

33
Slow Fibers
  • Contract slowly because its myosin ATPases work
    slowly.
  • Depends on oxygen delivery and aerobic
    metabolism.
  • Is fatigue resistant and has high endurance.
  • Is thin in diameter large amt of cytoplasm
    impedes O2 and nutrient diffusion.
  • Cannot develop high tension small diameter
    means few myofibrils.
  • Has rich capillary supply and lots of
    mitochondria.
  • Contains lots of the O2-storing protein,
    myoglobin which gives it a red color.
  • Uses lipids, carbs, and amino acids as substrates
    for it aerobic metabolism.
  • Best suited for endurance type activities.
  • A.k.a. red fibers, slow oxidative fibers, type I
    fibers.

34
Fast Fibers
  • So named because they can contract in 0.01
    seconds or less after stimulation.
  • Fast fibers are large in diameter they contain
    densely packed myofibrils, large glycogen
    reserves, and relatively few mitochondria.
  • Able to develop a great deal of tension b/c they
    contain a large number of sarcomeres.
  • Use ATP in massive amounts. Supported by
    anaerobic metabolism. Fatigue rapidly.
  • A.k.a., fast fatigue (FF) fibers, fast glycolytic
    (FG) fibers, white fibers.
  • Best suited for short term, power activities.

35
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36
Thought questions why do chickens have white
breast meat and dark leg meat? What does this
say about the activities of the associated
muscles? Why do ducks have dark breast meat?
37
Myasthenia Gravis
  • Mymuscle, asthenweakness, graviheavy
  • Autoimmune disease where antibodies attack the
    ACh receptors on neuromuscular junctions.
  • Results in progressive weakening of the skeletal
    muscles. Why?
  • Treated w/ anticholinesterases such as
    neostigmine or physostigmine. These decrease the
    activity of acteylcholinesterase.
  • Why would this help someone with myasthenia
    gravis?

38
Muscular Dystrophy
  • Group of inherited muscle-destroying diseases
    that generally appear during childhood.
  • Dysfaulty Trophgrowth
  • Most common is Duchenne muscular dystrophy
  • DMD is caused by an abnormal X-linked recessive
    gene
  • Diseased muscle fibers lack the protein
    dystrophin which normally links the cytoskeleton
    to the ECM and stabilizes the sarcolemma
  • Age of onset is btwn 2 and 10. Muscle weakness
    progresses. Afflicted individuals usually die of
    respiratory failure, usually by age 25.

Here is a slide of skeletal muscle from someone
with DMD. Look how much connective tissue there
is. Lots of adipose tissue too. Why do you
think theres so much?
39
Other Important Terms
  • Flaccid paralysis
  • Weakness or loss of muscle tone typically due to
    injury or disease of motor neurons
  • Spastic paralysis
  • Sustained involuntary contraction of muscle(s)
    with associated loss of function
  • How do flaccid and spastic paralysis differ?
  • Spasm
  • A sudden, involuntary smooth or skeletal muscle
    twitch. Can be painful. Often caused by
    chemical imbalances.

40
Other Important Terms
  • Cramp
  • A prolonged spasm that causes the muscle to
    become taut and painful.
  • Hypertrophy
  • Increase in size of a cell, tissue or an organ.
  • In muscles, hypertrophy of the organ is always
    due to cellular hypertrophy (increase in cell
    size) rather than cellular hyperplasia (increase
    in cell number)
  • Muscle hypertrophy occurs due to the synthesis of
    more myofibrils and synthesis of larger
    myofibrils.

41
Other Important Terms
  • Atrophy
  • Reduction in size of a cell, tissue, or organ
  • In muscles, its often caused by disuse. Could a
    nerve injury result in disuse? Why might
    astronauts suffer muscle atrophy?
  • Fibrosis
  • Replacement of normal tissue with heavy fibrous
    connective tissue (scar tissue). How would
    fibrosis of skeletal muscles affect muscular
    strength? How would it affect muscle
    flexibility?

42
Smooth Muscle
  • Involuntary, non-striated muscle tissue
  • Occurs within almost every organ, forming sheets,
    bundles, or sheaths around other tissues.
  • Cardiovascular system
  • Smooth muscle in blood vessels regulates blood
    flow through vital organs. Smooth muscle also
    helps regulate blood pressure.
  • Digestive systems
  • Rings of smooth muscle, called sphincters,
    regulate movement along internal passageways.
  • Smooth muscle lining the passageways alternates
    contraction and relaxation to propel matter
    through the alimentary canal.

43
Smooth Muscle
  • Integumentary system
  • Regulates blood flow to the superficial dermis
  • Allows for piloerection
  • Respiratory system
  • Alters the diameter of the airways and changes
    the resistance to airflow
  • Urinary system
  • Sphincters regulate the passage of urine
  • Smooth muscle contractions move urine into and
    out of the urinary bladder

44
Smooth Muscle
  • Reproductive system
  • Males
  • Allows for movement of sperm along the male
    reproductive tract.
  • Allows for secretion of the non-cellular
    components of semen
  • Allows for erection and ejaculation
  • Females
  • Assists in the movement of the egg (and of sperm)
    through the female reproductive tract
  • Plays a large role in childbirth

45
Smooth Muscle
  • Smooth muscle cells
  • Are smaller 5-10um in diameter and 30-200um in
    length
  • Are uninucleate contain 1 centrally placed
    nucleus
  • Lack any visible striations
  • Lack T-tubules
  • Have a scanty sarcoplasmic reticulum
  • Smooth muscle tissue is innervated by the
    autonomic nervous system unlike skeletal muscle
    which is innervated by the somatic nervous system
    (over which you have control)
  • Only the endomysium is present. Nor perimysium or
    epimysium.

46
Smooth Muscle Contraction
  • Myosin and actin are present and crossbridge
    formation powers contraction, but the thick and
    thin filaments do not have the strict repeating
    arrangement like that found in skeletal muscle.
  • There are no Z discs, instead thin filaments are
    attached to protein structures called dense
    bodies which attach to the sarcolemma.

47
Cardiac Muscle
  • Striated, involuntary muscle
  • Found in walls of the heart
  • Consists of branching chains of stocky muscle
    cells. Uni- or binucleate.
  • Has sarcomeres T-tubules
  • Cardiac muscle cells are joined by structures
    called intercalated discs which consist of
    desmosomes and gap junctions.
  • Why do you suppose these are necessary?

Notice the branching and the intercalated disc,
indicated by the blue arrow.
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