Respiratory System Lesson 2 - Part 2 PDF

Summary

This lesson details the process of respiration, covering exhalation and inhalation, and the roles of various muscles. It discusses the movement of gases (oxygen and carbon dioxide) within the circulatory system. This is a class presentation/notes.

Full Transcript

Respiratory
System
Lesson 2 - Part 2
Mechanics
of
Breathing
Exhalation
For air to go out of the lungs, the pressure must be
higher on the inside of the lungs than on the outside.
Air moves from an area of high pressure to an area of
low pressure.
The high pressure area is created by quickly changing
the volume of the thoracic cavity or the chest.
If the volume is decreased, the air pressure increases
inside the chest and air rushes out.
Muscles of Exhalation
External intercostal (chest)
muscles
○ They relax, which causes the
rib cage to move down and air
to move out of the lungs.
○ These muscles are found
between the ribs on the
outside of the chest cavity.
Muscles of Exhalation
Diaphragm
○ A muscle between the
abdominal and thoracic
cavities.
○ It relaxes and moves up to
its normal position, which
causes air to move out of
the lungs.
Muscles of Exhalation
Internal intercostal muscles
○ Can contract to increase the
pressure on the chest and
force exhalation with a little
more power.
○ They are found between the
ribs on the inside of the
chest cavity.
○ They are used for forced
breathing.
Muscles of Exhalation
Abdominal muscle
○ Can contract, which
pushes the contents of the
abdominal cavity towards
the diaphragm causing air
to move out of the lungs.
○ These muscles are also
important for forced
breathing.
Inhalation
Just before inhalation, the air pressure in the alveoli is
the same as the atmospheric pressure.
For air to go into the lungs, the pressure must be
lower on the inside of the chest and higher on the
outside.
This means the air pressure must be actively
decreased inside the chest.
The low pressure area is created by quickly changing
the volume of the thoracic cavity.
Inhalation
If the volume is increased, the air pressure decreases
inside the chest.
This is an active process and it requires the
contraction of muscles.
Your chest muscles pull your rib cage up and out.
This is why breathing becomes difficult if there is
pressure being placed against your rib cage.
Muscles of Inhalation
External intercostal muscles
○ Moves the rib cage up and
out causing air to be
sucked into the lungs.
Diaphragm
○ Moves downward and
flattens, which causes air
to be sucked into the
lungs.
What causes hiccups?
Transport
of Oxygen
Transport of Oxygen
Oxygen is transported in 2 ways by the circulatory
system.
○ Transport as a dissolved gas
Oxygen dissolves directly into the plasma of
oxygen-poor blood that circulates in the
capillaries of alveoli.
It does this because the oxygen in the alveoli
exerts pressure in order to pass into the blood
inside the capillaries.
This accounts for 1% of the exchanged
Transport of Oxygen
Oxygen is transported in 2 ways by the circulatory
system.
○ Transport by hemoglobin
Oxygen easily combines with the red, iron-
bearing heme of hemoglobin to produce
oxyhemoglobin.
This occurs inside the red blood cells and
accounts for 99% of the oxygen transportation
in the body.
Oxygen is later released from the
 Transport of
Carbon Dioxide
Transport of Carbon Dioxide
CO2 is transported in the circulatory system in 3
ways.
○ Transport in the blood plasma
Like oxygen, some of the CO2 dissolves under
pressure in the blood plasma.
The lungs are designed to release this
pressurized gas into the atmosphere.
Only 7% of the CO2 is transported this way.
Transport of Carbon Dioxide
CO2 is transported in the circulatory system in 3
ways.
○ Transport as hydrogen ions in red blood cells
About 70% of the CO2 moves from the blood
plasma into the cytoplasm of red blood cells.
The CO2 breaks down as it mixes with water
with the help of an enzyme called carbonic
anhydrase.
This allows CO2 to be transported disguised as
hydrogen ions and bicarbonate ions.
Transport of Carbon Dioxide
CO2 is transported in the circulatory system in 3
ways.
○ Transport by hemoglobin
About 23% of CO2 goes directly to the
hemoglobin molecule, finds a spot on the
outer protein (globin) portions, and hooks on
for a ride to the lungs.
This is called carbaminohemoglobin.
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