Bones provide support for our bodies and help form our shape. Although they're
very light, bones are strong enough to support our entire weight.
Bones also protect the organs in our bodies. The skull protects the brain
and forms the shape of the face. The spinal cord, a pathway for messages between the
brain and the body, is protected by the backbone, or spinal column. The ribs form
a cage that shelters the heart
and lungs, and the pelvis helps
protect the bladder, part of the intestines, and in women, the reproductive
Bones are made up of a framework of a protein called
, with a mineral called calcium phosphate that makes the framework hard
and strong. Bones store calcium and release some into the bloodstream when it's needed
by other parts of the body. The amounts of certain vitamins and minerals that you
eat, especially vitamin D and calcium,
directly affect how much calcium is stored in the bones.
Bones are made up of two types of bone tissues:
Compact bone is the solid, hard outside part of the bone. It
looks like ivory and is extremely strong. Holes and channels run through it, carrying
blood vessels and nerves.
Cancellous (pronounced: KAN-suh-lus) bone, which
looks like a sponge, is inside compact bone. It is made up of a mesh-like network
of tiny pieces of bone called trabeculae (pronounced: truh-BEH-kyoo-lee). This is
where bone marrow is found.
In this soft bone is where most of the body's blood
cells are made. The bone marrow contains stem cells, which produce the body's red
blood cells and platelets, and some types of white blood cells. Red blood cells carry
oxygen to the body's tissues, and platelets help with blood clotting when someone
has a cut or wound. White blood cells help the body fight infection.
Bones are fastened to other bones by long, fibrous straps called ligaments (pronounced:
LIG-uh-mentz). Cartilage (pronounced: KAR-tul-ij), a flexible, rubbery substance in
our joints, supports bones and protects them where they rub against each other.
How Do Bones Grow?
The bones of kids and young teens are smaller than those of adults and contain
"growing zones" called growth plates. These plates consist of multiplying
cartilage cells that grow in length, and then change into hard, mineralized bone.
These growth plates are easy to spot on an X-ray. Because girls mature at an earlier
age than boys, their growth plates change into hard bone at an earlier age.
Bone-building continues throughout life, as a body constantly renews and reshapes
the bones' living tissue. Bone contains three types of cells:
osteoblasts (pronounced: AHS-tee-uh-blastz), which make new bone and help repair
osteocytes (pronounced: AHS-tee-o-sites), mature bone cells which help continue
new born formation
osteoclasts (pronounced: AHS-tee-o-klasts), which break down bone and help to
sculpt and shape it
What Are Muscles and What Do They Do?
Muscles pull on the joints, allowing us to move. They also help the body do such
things as chewing food and then moving it through the digestive
Even when we sit perfectly still, muscles throughout the body are constantly moving.
Muscles help the heart beat, the chest rise and fall during breathing, and blood vessels
regulate the pressure and flow of blood. When we smile and talk, muscles help us communicate,
and when we exercise, they help us stay physically fit and healthy.
Humans have three different kinds of muscle:
Skeletal muscle is attached by cord-like tendons to bone, such
as in the legs, arms, and face. Skeletal muscles are called striated (pronounced:
STRY-ay-ted) because they are made up of fibers that have horizontal stripes when
viewed under a microscope. These muscles help hold the skeleton together, give the
body shape, and help it with everyday movements (known as voluntary muscles because
you can control their movement). They can contract (shorten or tighten) quickly and
powerfully, but they tire easily.
Smooth, or involuntary, muscle is also made of fibers, but this
type of muscle looks smooth, not striated. We can't consciously control our smooth
muscles; rather, they're controlled by the nervous system automatically (which is
why they're also called involuntary). Examples of smooth muscles are the walls of
the stomach and intestines, which help break up food and move it through the digestive
system. Smooth muscle is also found in the walls of blood vessels, where it squeezes
the stream of blood flowing through the vessels to help maintain blood pressure. Smooth
muscles take longer to contract than skeletal muscles do, but they can stay contracted
for a long time because they don't tire easily.
Cardiac muscle is found in the heart. The walls of the heart's
chambers are composed almost entirely of muscle fibers. Cardiac muscle is also an
involuntary type of muscle. Its rhythmic, powerful contractions force blood out of
the heart as it beats.
How Do Muscles Work?
The movements your muscles make are coordinated and controlled by the brain and
nervous system. The involuntary muscles are controlled by structures deep within the
brain and the upper part of the spinal cord called the brain stem. The voluntary muscles
are regulated by the parts of the brain known as the cerebral motor cortex and the
cerebellum (pronounced: ser-uh-BEL-um).
When you decide to move, the motor cortex sends an electrical signal through the
spinal cord and peripheral nerves to the muscles, causing them to contract. The motor
cortex on the right side of the brain controls the muscles on the left side of the
body and vice versa.
The cerebellum coordinates the muscle movements ordered by the motor cortex. Sensors
in the muscles and joints send messages back through peripheral nerves to tell the
cerebellum and other parts of the brain where and how the arm or leg is moving and
what position it's in. This feedback results in smooth, coordinated motion. If you
want to lift your arm, your brain sends a message to the muscles in your arm and you
move it. When you run, the messages to the brain are more involved, because many muscles
have to work in rhythm.
Muscles move body parts by contracting and then relaxing. Muscles can pull bones,
but they can't push them back to the original position. So they work in pairs of flexors
and extensors. The flexor contracts to bend a limb at a joint. Then, when the movement
is completed, the flexor relaxes and the extensor contracts to extend or straighten
the limb at the same joint. For example, the biceps muscle, in the front of the upper
arm, is a flexor, and the triceps, at the back of the upper arm, is an extensor. When
you bend at your elbow, the biceps contracts. Then the biceps relaxes and the triceps
contracts to straighten the elbow.
What Are Joints and What Do They Do?
Joints are where two bones meet. They make the skeleton flexible — without them,
movement would be impossible.
Joints allow our bodies to move in many ways. Some joints open and close like a
hinge (such as knees and elbows), whereas others allow for more complicated movement
— a shoulder or hip joint, for example, allows for backward, forward, sideways, and
Joints are classified by their range of movement:
Immovable, or fibrous, joints don't move. The dome of the skull,
for example, is made of bony plates, which move slightly during birth and then fuse
together as the skull finishes growing. Between the edges of these plates are links,
or joints, of fibrous tissue. Fibrous joints also hold the teeth in the jawbone.
Partially movable, or cartilaginous (pronounced: kar-tuh-LAH-juh-nus),
joints move a little. They are linked by cartilage, as in the spine. Each
of the vertebrae in the spine moves in relation to the one above and below it, and
together these movements give the spine its flexibility.
Freely movable, or synovial (pronounced: sih-NO-vee-ul),
joints move in many directions. The main joints of the body — such as those
found at the hip, shoulders, elbows, knees, wrists, and ankles — are freely movable.
They are filled with synovial fluid, which acts as a lubricant to help the joints
Three kinds of freely movable joints play a big part in voluntary movement:
Hinge joints allow movement in one direction, as seen in the
knees and elbows.
Pivot joints allow a rotating or twisting motion, like that of
the head moving from side to side.
Ball-and-socket joints allow the greatest freedom of movement.
The hips and shoulders have this type of joint, in which the round end of a long bone
fits into the hollow of another bone.