2. Circulation and Respiration
Each breath brings
oxygen rich air into
your body
Your cells need that oxygen
Your heart delivers oxygen to your cells
Working together, your circulatory and
respiratory systems supply cells
throughout the body with the nutrients and
oxygen that they need to stay alive!
3. Structure
Humans have a closed circulatory system.
– Blood is pumped through a system of vessels
(In an open system, blood flows in vessels and
sinuses/gills)
Sometimes the circulatory system is also called
the “cardiovascular system” because:
– Cardio = heart
– Vascular = vessels
The human circulatory system consists of:
–
–
–
The heart
A series of blood vessels
Blood that flows through them
4. The Heart
Located near the center of your chest
A hollow organ about the size of your fist composed of
cardiac muscle.
Enclosed in a protective sac of tissue called the
pericardium
Inside there are two thin layers of epithelial and
connective tissue
Contractions of the myocardium, a thick cardiac muscle,
pump blood through the circulatory system
The heart contracts about 72 times a minute
Each contraction pumps about 70 mL of blood
5. Heart
Septum, or wall,
separates the right side
form the left side
preventing mixing of
oxygen-rich blood and
oxygen-poor blood
Flaps of connective tissue
called valves divide each
side into 2 chambers:
totaling 4 chambers
– Upper chambers receive
blood = atrium
– Lower chambers pump
blood out of heart =
ventricle
6. Types of Circulation
Pulmonary circulation = from right side of
the heart to lungs where carbon dioxide
leaves the blood and oxygen is absorbed
Systemic circulation = from left side of the
heart to organs
– Coronary circulation = through heart tissue
7. Pulmonary Circulation
The right side of the heart pumps blood from the
heart to the lungs
In the lungs, carbon dioxide leaves the blood
while oxygen is absorbed.
The oxygen-rich blood goes into the left side of
the heart
8. Systemic Circulation
The oxygen-rich blood from
the left side of the heart is
pumped to the rest of the
body
Oxygen-poor blood returns
to the right side of the heart
This blood is oxygen-poor
because the cells absorbed
the oxygen and released
carbon dioxide into the
blood
The oxygen-poor blood is
ready for another trip to the
lungs to get oxygen again
9.
10. Figure 37-2 The Circulatory System
Section 37-1
Capillaries of
head and arms
Superior
vena cava
Pulmonary
vein
Capillaries of
right lung
Aorta
Pulmonary
artery
Capillaries
of left lung
Inferior
vena cava
Capillaries of
abdominal organs
and legs
12. Valves
Blood enters into the atria of the heart, separated from the ventricles
by valves, preventing back-flow of blood keeping the blood flowing
in one direction
When the atria contract, the valves open and blood flows into the
ventricles
When the ventricles contract, the valves close preventing blood from
flowing back into the atria and blood flows out of the heart
At the exits of the ventricles, there are valves that prevent blood
from flowing back into the heart
The “lub-dup” sound of your heart is caused by the closing of the
heart’s valves. The “lub” is when the ventricles contract and blood
being forced against the artioventricular or A-V (tricuspid or mitral)
valves. The “dup” is the blood being forced against the semilunar
(aortic or pulmonary) valves.
13. Figure 37-3 The Structures of the Heart
Section 37-1
Superior Vena Cava
Large vein that brings oxygen-poor blood from
the upper part of the body to the right atrium
Aorta
Brings oxygen-rich blood from the left
ventricle to the rest of the body
Pulmonary Arteries
Bring oxygen-poor blood
to the lungs
Pulmonary Veins
Bring oxygen-rich blood from each
of the lungs to the left atrium
Left Atrium
Pulmonary Valve
Prevents blood from flowing
back into the right ventricle
after it has entered the
pulmonary artery
Right Atrium
Tricuspid Valve
Prevents blood from flowing
back into the right atrium after it
has entered the right ventricle
Inferior Vena Cava
Vein that brings oxygen-poor
blood from the lower part of
the body to the right atrium
Aortic Valve
Prevents blood from flowing
back into the left ventricle
after it has entered the aorta
Mitral Valve
Prevents blood from flowing back
into the left atrium after it has
entered the left ventricle
Left Ventricle
Septum
Right Ventricle
14. Heartbeat
There are two muscle contractions in the heart:
– The atria
– The ventricles
Each contraction begins in a small group of cardiac
muscle cells in the right atrium that stimulate the rest of
the muscle cells = sinoatrial node (SA node)
Since the sinoatrial node sets the pace for the heart it is
also called “the pacemaker”
The impulse spreads from the pacemaker through fibers
in the atria to the atrioventricular node (AV node) and
through fibers in the ventricles
When the atria contract, blood flows into the ventricles
When the ventricle contract, blood flows out of the heart
15. The Sinoatrial Node
Section 37-1
Contraction of Atria
Contraction of Ventricles
Sinoatrial
(SA) node
Conducting
fibers
Atrioventricular
(AV) node
16. Changing Heartbeat
Your heart can beat faster or slower, depending
on your body’s need for oxygen-rich blood
When you exercise, your heart rate can increase
to 200 beats per minute
The autonomic nervous system influences heart
rate
– Neurotransmitters released by neurons in the
sympathetic nervous system can increase heart rate,
and those released by the parasympathetic nervous
system can decrease heart rate
17. Blood vessels
Blood circulates in one direction and it is
moved by the pumping of the heart
As blood flows through the circulatory
system, it moves through three types of
blood vessels:
– Arteries
– Capillaries
– Veins
18. Arteries
Large vessels that carry blood
away from the heart to tissues of
the body
Except for the pulmonary
arteries, all arteries carry
oxygen-rich blood.
Arteries have thick walls of
elastic connective tissue,
contractible smooth muscle, and
epithelial cells that help them
withstand the powerful pressure
produced when the heart
contracts and pushes blood into
the arteries.
19. Capillaries
The smallest of the blood
vessels connecting
arteries and veins
Walls are one cell thick
allowing for easier
diffusion of nutrients and
oxygen from capillaries to
body cells and wastes
and carbon dioxide from
body cells to capillaries
20. Veins
Return blood to the heart
Veins have walls of connective
tissue and smooth muscle
Large veins contain valves that
keep blood flowing towards the
heart
Many veins are located near
skeletal muscles, so when the
muscles contract, they help force
blood through the veins, even
against gravity
Exercise helps prevent
accumulation of blood in limbs
and stretching veins out of shape
21. Figure 37-5 The Three Types
of Blood Vessels
Section 37-1
Vein
Artery
Endothelium
Arteriole
Capillary
Venule
Connective
tissue
Connective
tissue
Smooth
muscle
Endothelium
Smooth
muscle
Endothelium
Valve
22.
Blood Pressure
The heart produces pressure when it contracts.
The force of blood on the arteries’ walls = blood pressure
Blood pressure decreases when the heart relaxes, but
there must always be some pressure to keep the blood
flowing
Doctors measure blood pressure with a
sphygmomanometer recording two numbers
– Systolic pressure = force felt in arteries when ventricles contract
– Diastolic pressure = force of blood felt in arteries when ventricles
relax
Average adult’s blood pressure = 120/80
23. Disorders
Disorders of the circulatory
system are very common:
– High Blood Pressure
– Heart Attack
– Stroke
Most stem from atherosclerosis
= fatty deposits (plaque) builds
up on walls of arteries,
obstructing blood flow,
increasing blood pressure and
risk of blood clots
24. High Blood Pressure
Also known as Hypertension
Forces heart to work harder, which may weaken
or damage the heart muscle and vessels
More likely to develop heart disease and
increased risk of heart attack and stroke
25. Heart Attack
A medical emergency
Coronary arteries
(supplying heart blood)
bring oxygen and nutrients to the heart
muscle itself
Blockage of coronary artery may damage
or kill part of heart muscle (myocardium)
due to lack of oxygen = heart attack
– Symptoms include: chest pain/pressure,
feeling of heartburn/indigestion, sudden
dizziness, or brief loss of consciousness
26. Stroke
Blood clots may break free from vessels and get stuck in
a blood vessel leading to a part of the brain = stroke
Brain cells relying on that vessel may begin to die from
lack of oxygen and brain function in that region may be
lost
Strokes can also occur when a weakened artery in the
brain burst, flooding the area with blood
27. Prevention
Cardiovascular diseases are
easy to prevent:
– Exercise – increases
respiratory system’s
efficiency
– Weight control – reduces
body fat and stress
– Sensible diet – low in
saturated fat reduces risk of
heart disease
– Not smoking – reduces risk
of heart disease