Anatomy and physiology of the circulation of blood
Oxygenated
blood (blood rich in oxygen) from the lungs, which is bright red because oxygen
has bound to the haemoglobin, returns to the heart and is then pumped around
the body to supply the tissues. Blood returning from the body to the heart is
rich in waste products such as carbon dioxide and is short of oxygen. This oxygen-depleted
blood (dark red in colour) is termed deoxygenated blood and is pumped through
the lungs again to release carbon dioxide and, of course, to collect more
oxygen.
The design
of the heart and associated blood vessels ensures that blood going to the lungs
is kept separate from that going around the body. The heart prevents the mixing
of oxygenated blood with deoxygenated blood by using two separate but parallel
circuits of blood vessels: the pulmonary circulation and the systemic
circulation.
Because of
its four-chamber design, the heart can serve both circuits at once, using its
two pumps to simultaneously push blood from one circuit through one half of its
structure and blood from the other circuit through its other half
The muscular
part of a heart is called the myocardium (‘myo-’ means ‘muscle’ and ‘-cardium’ means ‘of the heart’). The heart muscles are very special because they keep
beating (contracting and relaxing) spontaneously throughout our whole lives
without any conscious decision from us to make them beat.
The atrium
is a thin-walled chamber that expands with little resistance as the blood
enters. Blood from the right atrium flows down into the right
ventricle, through the tricuspid valve. You can imagine the valve operating in
a manner similar to a swing door that only opens in one direction. When blood
enters the right atrium, the valve opens and blood flows into the right ventricle.
When the ventricles contract, the back pressure of the blood forces the valve
to close to prevent any backflow of blood into the atria
Oxygenated
blood (blood rich in oxygen) from the lungs, which is bright red because oxygen
has bound to the haemoglobin, returns to the heart and is then pumped around
the body to supply the tissues. Blood returning from the body to the heart is
rich in waste products such as carbon dioxide and is short of oxygen. This oxygen-depleted
blood (dark red in colour) is termed deoxygenated blood and is pumped through
the lungs again to release carbon dioxide and, of course, to collect more
oxygen.
The design
of the heart and associated blood vessels ensures that blood going to the lungs
is kept separate from that going around the body. The heart prevents the mixing
of oxygenated blood with deoxygenated blood by using two separate but parallel
circuits of blood vessels: the pulmonary circulation and the systemic
circulation.
Because of
its four-chamber design, the heart can serve both circuits at once, using its
two pumps to simultaneously push blood from one circuit through one half of its
structure and blood from the other circuit through its other half
The muscular
part of a heart is called the myocardium (‘myo-’ means ‘muscle’ and ‘-cardium’ means ‘of the heart’). The heart muscles are very special because they keep
beating (contracting and relaxing) spontaneously throughout our whole lives
without any conscious decision from us to make them beat.
The atrium
is a thin-walled chamber that expands with little resistance as the blood
enters. Blood from the right atrium flows down into the right
ventricle, through the tricuspid valve. You can imagine the valve operating in
a manner similar to a swing door that only opens in one direction. When blood
enters the right atrium, the valve opens and blood flows into the right ventricle.
When the ventricles contract, the back pressure of the blood forces the valve
to close to prevent any backflow of blood into the atria
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