Muscular System_Patacsil,RhianJane.pdf

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Muscular
System
Presented By: Rhian Jane F. Patacsil
What is Muscle?

A muscle is made of strong tissue
that can contract in an orderly way
All muscle tissues are made of cells
that contract.
When the cells of a muscle contract,
the muscle tissues become shorter.
The muscle tissues return to their
original length when the cells relax.
Shape of Muscle
Circular Muscles - These muscles appear
circular in shape and are normally sphincter
muscles that surround an opening such as the
mouth, surrounded by Obicularis Oris and
Obicularis Oculi surrounding the eyes.
Shape of Muscle
Convergent Muscles- These are
muscles where the origin (the
attachment to a fixed bone, usually
the proximal attachment) is wider
than the point of insertion. This
fiber arrangement allows for
maximum force production. An
example is Pectoralis Major.
Convergent muscles are also
sometimes known as triangular
muscles.
Shape of Muscle
Parallel Muscles - have fibers
that, as the name suggests,
run parallel to each other and
are sometimes called strap
muscles. They are normally
long muscles which cause
large movements, and are not
very strong but have good
endurance.
Shape of Muscle
Fusiform Muscles - Sometimes,
included in the parallel muscle
group, these muscles are more
spindle-shaped, with the muscle
belly being wider than the origin
and insertion. Examples are, Biceps
Brachii and Psoas major.
Shape of Muscle
Pennate Muscles - have a large
number of muscle fibers per unit
and so are very strong, but tire
easily. They can be divided into:
1. Unipennate: These muscles
have their fibers arranged to
insert in a diagonal direction
onto the tendon, which allows
great strength. Examples
include the Lumbricals (deep
hand muscles) and Extensor
Digitorum Communis (wrist and
finger extensor)
Shape of Muscle
2. Bipennate: Bipennate muscles have
two rows of muscle fibers, facing in
opposite diagonal directions, with a
central tendon, like a feather. This
allows even greater power but less
range of motion. An example is the
Rectus Femoris
Shape of Muscle
3. Multipennate: As the name
suggests Multipennate muscles
have multiple rows of diagonal
fibers, with a central tendon that
branches into two or more tendons.
An example is the Deltoid muscle
which has three sections, anterior,
posterior, and middle.
Skeletal Muscles
There are well over 600 skeletal muscles in
the human body, some of which are
identified in Figure. Skeletal muscles vary
considerably in size, from tiny muscles inside
the middle ear to very large muscles in the
upper leg.
Structure of Skeletal Muscles
Each skeletal muscle consists of hundreds or even
thousands of skeletal muscle fibers. The fibers are
bundled together and wrapped in connective tissue
as shown Figure.
The connective tissue supports and protects the
delicate muscle cells and allows them to withstand
the forces of contraction. It also provides pathways
for nerves and blood vessels to reach the muscles.
Skeletal muscles work hard to move body parts.
They need a rich blood supply to provide them with
nutrients and oxygen and to carry away their
wastes
Function-Movement

Many of your muscles help you move. Most of these
muscles attach to bones. These muscles make your
skeleton move.
When muscles contract, they move bones. This
movement can be fast, such as when you run. The
movement can also be slow, such as when you
stretch.
Functions-Stability
Muscles that are attached to your
bones support your body and help you
keep your balance.
Tendons attach muscles to the bones.
Tendons work with muscles and keep
your joints in place when your body
moves.
Tendons also help hold your body in a
correct posture, or shape.
Functions-Protection
Muscles protect your body. They cover most of
your skeleton.
Muscles also cover most of the organs inside
your body.
Muscles are like a layer of padding. They
surround your abdomen, chest, and back, and
protect your internal organs.
Functions-Temperature Regulation
Your muscular system helps your body keep your
internal temperature within a certain range.
Have you ever felt cold and then started shivering?
Shivering is muscles rapidly contracting. This changes
chemical energy to thermal energy. The released
thermal energy helps maintain your body's temperature.
This is important because a human's body temperature
must stay around 37°C in order for the body to function
properly.
Muscles also change chemical energy to thermal energy
during exercise. This is why you feel warm after physical
activity.
Types of Mucsles
Skeletal Muscles
Muscle that attaches to bones is skeletal muscle.
Skeletal muscles are also called voluntary muscles.
Voluntary muscles are muscles that you can
consciously control.
Skeletal muscles work by pulling on bones.
Muscles cannot push on bones. Instead, muscles
work in pairs and move the body.

For example, you can control whether or not you
lift your leg. The contractions of skeletal muscles
can be quick and powerful, such as when you run.
However, contracting these muscles for a long time
can tire them or make them cramp.
Skeletal Muscles
Your skeletal muscles can change
throughout your lifetime.
If you exercise, your muscle cells get
larger. Then, your entire muscle
becomes larger and stronger.
 Cardiac Muscles
Your heart is made of cardiac muscles, which are found only in the heart.
A cardiac muscle is a type of involuntary muscle, which is muscle you cannot consciously control.
As cardiac muscles contract and relax, they pump blood through your heart and through vessels
throughout your body.

Cardiac muscle cells have branches with
discs at their ends. These discs send signals
to other cardiac muscle cells.
The signals cause all the cardiac muscle
cells to contract at almost the same time.
Smooth Muscles
Smooth muscles line your blood vessels and
many of your organs.
Smooth muscles are involuntary muscles
named for their smooth appearance.
Contraction of smooth muscles helps move
material through your body, such as food in
your stomach.
Smooth muscles also control the movement
of blood through your vessels.
 Thanks!
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QUIZ TIME!
1-5. Identify the shape of muscle below: