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| What is the muscular system? |
| It
is that system which helps us carry out our day to day activities
like walking, standing, working. Some of these activities
are not complicated; e.g. walking. But some activities require
fine coordinated movements by the body; e.g. typing. The
basis of all our movements are the contraction and relaxation
of muscle fibers. These fibers make the movements of all
joints possible. |
| What are muscles? |
| These are structures present in the body that are attached
to the bones. They provide support as well as make the bones
work in tandem thus making movement possible. |
| How can we describe muscles? |
Muscles are of three types. These are
- Skeletal muscle
- Cardiac muscle
- Smooth muscle
A. Skeletal muscles
These are the major muscles of the body. They are present
attached to the bones. They provide a constant tension that
gives the body its support. This tone does not require consciousness,
but requires alertness.
Internal structure of a skeletal muscle
The skeletal muscle comprises of muscle fibres arranged
in bundles called as fascicles. Each muscle fiber is made
up of myofibrils. Myofibrils are made of thick and thin
strands called as myofilaments. Myofilaments are elongated
muscle cells having a nucleus. When nerve impulses reach
the myofilaments, the thick and thin myofilaments slide
into and out of each other like interlacing fingers, thus
causing contraction and relaxation of the fiber and ultimately
the whole muscle moves. The movement of the myofilaments
is controlled by calcium and potassium concentration in
the body.
The fascicles made by muscle fibers are enclosed in a sheath
called as perimysium. These fascicles are again arranged
in bundles to make up the whole muscle.
Microscopically the skeletal muscle is formed of long parallel,
strong fibers. These are efficient and they are strong but
can contract for only short periods of time. Thus they get
tired easily.
The typical appearance of a muscle is as follows
Skeletal muscles appear tapered in shape and usually they
end in tapered ends called as tendons. The mass of muscle
is called as the belly. Tendons are structures made of fibrous
tissue and are extremely strong. They are thinner than muscles
so that they can be easily inserted on bones. They also
prevent the muscle from tearing. Examples of tendons are
the tendons of the forearm which tighten up and appear as
cords on the forearm when the fist is clenched. The belly
of the muscle contains the bulk of muscle fibers, which
gives the muscle its strength.
B. Cardiac muscle
This muscle, as its name suggests, is only present in the
heart. This muscle has a unique property, that it does not
get tired. It has a very fast recovery after it contracts
unlike skeletal muscle and is thus able to contract and
relax throughout our lifetime.
Microscopically the cardiac muscle is made of short, branching
and interconnected fibers forming a network in a wall of
the heart.
C. Smooth muscle
This is the muscle that occurs in hollow organs like the
intestines. The smooth muscle fibers are short and spindle
shaped. They are also thinner than skeletal muscle fibers.
They too have an unique property as they can remain contracted
for a long period of time. |
| Functions of muscles |
The
muscles are attached to bones at a point called as the insertion.
They also originate from the bone at a point called as the
origin. Usually the muscle originates on one bone and it
inserts onto a separate bone, adjacent to the former. The
two bones form a joint. Whenever a voluntary movement is
required to be performed the brain sends an impulse to the
appropriate muscle, which then contracts. When the muscle
contracts, its length becomes shorter. This causes a pull
on the bone to which it is attached and thus causes movement.
Whenever an involuntary movement such as walking or running
occurs, there is coordinated movement of large groups of
muscles and the impulses sent to the muscles in this case
are generated by the spinal nerves.
The work done by one group of muscles is usually balanced
by another group of muscles called the antagonists. These
muscles are required for the body to carry out two functions
for e.g. pushing and pulling. An example of antagonists
muscles is the group of biceps and the triceps muscles in
the arms and forearms. The biceps are present in front and
when they contract, the arm is flexed (bent). When the triceps
contract, the arm is straightened back again. These opposing
muscles have a certain tone that keeps them slightly taut
at all times. This tone is present in equal balance in both
the groups of muscles. This helps us to maintain a certain
posture.
Thus the muscles work along with the bones to perform movement
and maintain posture. |
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