Download The Circulatory System

The Circulatory
System
Part One – Blood
Part Two – Circulatory System
Part One - Blood
At the end of this section you should be able to:
Identify the liquid and formed elements of blood.
Identify their functions.
Identify different blood types and their compatibility.
What we have learned so far…
 Nutrients enter the bloodstream after they have
been absorbed by the small intestine.
 Oxygen enters the bloodstream through the
alveoli.
 Together, these elements travel through the
blood to enter our bodies trillions of cells so as
to nourish them and to allow energy to be
created.
 Later, we will learn how waste products leave
our bodies.
Blood
 Blood is an incompressible
fluid flowing
through our bodies. It flows everywhere.
 Its main function is the transportation of
nutrients and gases from their point of entry to
their destination, and vice versa.



Nutrients from the digestive system.
Oxygen from the respiratory system.
Waste made from cellular respiration.
Characteristics of Blood
 Blood is red, not blue as you may think from
looking at your veins.
 Salty
 Viscous, (thick)
 Odourless
 Males have 5-6 litres of blood.
 Females have 4-5 litres of blood.
Components of Blood
 Blood may seem homogenous, but is composed
of formed elements called blood cells, (white
and red), and platelets.
 Plasma is what makes it liquid.
 The formed elements and the plasma can be
separated through a process called
centrifugation.
 45% - formed elements, 55% plasma.
Components of Blood
Liquid Element

Plasma
Formed Elements



Red blood cells, (RBC)
White blood cells,
(WBC)
Platelets
Liquid Element - Plasma
 Description:

Yellowish liquid, composed of 90% water. Many
substances become dissolved in the plasma as
they’re being transported, like nutrients,
hormones and waste.
 Functions:



Transportation of nutrients to cells.
Transportation of waste from cellular respiration
to excretory organs.
Transportation of hormones, antibodies, etc.
Formed Elements – RBC’s
 Description:


There are 4-6 billion RBC’s in your body.
Red-coloured cells. They are concave, (donutshaped).
 Functions:



Transportation of oxygen using a protein called
hemoglobin.
Transportation of carbon dioxide.
Blood carrying oxygen is bright red. Blood
carrying carbon dioxide is dark red.
Formed Elements – WBC’s
 Description:


There are 4-11 billion WBC’s in the body.
They are transparent.
 Functions:


Provide immunity and defense against disease.
This is why the numbers vary. Someone who is
very ill will have a lower count of WBC’s than
someone who is healthy.
Phagocytosis: surround and destroy foreign
substances.
Formed Elements - Platelets
 Description:


There are 150-400 million platelets in your body.
They are irregular fragments coming from large
cells in bone marrow.
 Function:

Coagulation or blood-clotting. This process allows
your skin to scab and heal.
Blood Types
 There are 4 main blood types: A, B, AB and O
 Blood types are first categorized by the
presence or absence of two substances.


Substance A
Substance B
Found on the membrane of RBC
 In addition, cells can carry another substance on
their membrane: Rhesus Factor, or RH Factor.

Blood types can be either RH positive or RH
negative.
Blood Type
A+
A-
B+
B-
AB+
AB-
O+
O-
Substance B
RH Factor
No substances present
Substance A
Blood Transfusions
 An injection or transfer of blood to a person
who has undergone an accident, surgery or has
a disorder which requires it.
 A transfusion requires a donor and a recipient.
But, because people have different blood types,
the process must be done with care.
 Before blood typing was discovered in 1902,
many people died as a result of blood
transfusions.
…
 Donation is possible between two people with
the same blood type. But some types are rarer
than others.
 Some blood types are compatible with others.
 The rule of thumb for blood donation:

Don’t give what they don’t already have.
 Consider the substances in blood, A and B, and
the RH factor.
DONOR
O-
AB+
RECIPIENT
ABA+
AB+
BO+
O-
O+
B-
B+
A-
A+
AB-
AB+
Blood Compatibility
 Two people are blood compatible when:



They are both of he same blood type.
Type O- blood can donate to anyone, regardless of
blood type because they have no substances, nor
RH factor. Universal donor.
Type AB+ blood can receive blood from anyone
because they have both substances and RH factor.
Universal recipient.
Part Two – Circulatory System
At the end of this section you should be able to:
Name the parts of the circulatory system, (heart, vessels).
Explain the role of the circulatory system
Describe the function of the main parts, (heart vessels).
Anatomy of the Circulatory System
 There are three main parts of the circulatory
system:



The heart
Blood vessels
Pulmonary and systemic circulation
 The heart is the pump that keeps blood
circulating in our blood vessels.
 The blood vessels are broken down into many
types, mainly depending on their size.
 There are two ways that blood circulates
throughout the body.
Blood Vessels
 The bodies blood vessels form a closed-circuit
network.
 Blood vessels are divided into three categories:



Arteries
Capillaries
Veins
Arteries
 A blood vessel that
carries blood from the
heart to other parts of
the body.
 They have very thick
walls, allowing them
to withstand high
amounts of pressure.
 They branch into
smaller arterioles,
before becoming
small capillaries.
Capillaries
 A blood vessel that
has a small diameter
and thin walls.
Responsible for
exchanges between
the blood and cells.
 Capillaries are so small
that the blood cells
must pass one at a
time.
Veins
 A blood vessel that carries blood back to the
heart.
 Once capillaries start to reconnect, they form
venules, which become the larger veins.
The Heart
 The heart is roughly the size of your fist, located
between your lungs, protected by the rib cage.
 It is composed of four chambers:




Right atrium
Right ventricle
Left atrium
Left ventricle
directly linked
directly linked
Separated
by a
partition
…
 There are 5 major blood vessels
that are
connected to the heart.




Superior and inferior vena cava, (veins)
Pulmonary vein
Pulmonary artery
Aorta, (artery).
…
 Valves are also present in the heart.
 Without these valves, blood would flow
backwards in the heart. They are called
atrioventricular valves.
 Several blood vessels are attached to the heart.


Veins, (superior and inferior vena cava, pulmonary
veins), attached to both atria.
Arteries, (aorta and pulmonary arteries), are
attached to the ventricles.
Function of the Heart
 The contraction and relaxation of the heart
muscles is what circulates blood throughout the
body.
 For blood to enter the heart:



It must enter the atria from the veins.
It must enter when the heart is at rest, or is
relaxed.
The filling of the heart is called diastole.
…
 For blood to leave the heart:


The atria must contract, pushing blood into the
ventricles.
Then, the ventricles contract, pushing blood into
the arteries attached to the heart, (aorta and
pulmonary). This is called systole.
 The pulse that you feel corresponds to the
contractions of the left ventricle, (it is larger).
75 beats per minute when at rest.
Circulation Routes
 The heart is a double pump.
Because the two
sides of the heart are separated, the blood is
pumped in and out by different routes.
 On the right side of the heart, the mechanism is
called pulmonary circulation.
 On the left side, it is called systemic circulation.
Pulmonary vs. Systemic
Pulmonary






Right side.
Shorter circuit.
Blood is rich in CO₂
Blood exits the right
ventricle and flows to the
capillaries of the lungs.
CO₂ exchanges with O₂.
Now rich in O₂, blood returns
to the heart and enters the
left atrium through a
pulmonary vein.
Systemic






Left side.
Longer circuit.
Blood is rich in O₂.
Blood exits the left ventricle
through the aorta.
Aorta divides into arteries
and capillaries which shed
O₂ at the cells and pick up
CO₂.
Now rich in CO₂, blood
returns to the left atrium,
entering via the Vena Cava.
Circulation Routes
Image Credits

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


http://www.neodenta.lt/Treatment-usingconcentrated-blood-plasma
http://www.interactive-biology.com/3820/a-briefreview-on-the-study-of-blood-and-its-differentcomponents/
http://www.phschool.com/science/biology_place/bio
coach/cardio2/pathway.html
http://www.infovisual.info/03/060_en.html
http://www.kidport.com/reflib/science/humanbody/c
ardiovascular/Capillaries.htm