HUMAN RESPIRATORY STRUCTURES
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Transcript of HUMAN RESPIRATORY STRUCTURES
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HUMAN RESPIRATORY STRUCTURES• Nose/mouth: filters,
moistens, warms
• Pharynx• Larynx• Trachea – mucus, cilia• 2 lungs– 2 bronchi – Bronchioles– Alveoli
• Site of exchange• Thin walls, lots-o-capillaries• Large # S.A.
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• A thin layer of mucus is produced on the lining of the tubes of the respiratory systemThis thin layer traps
particles of dust or smoke
These tubes are lined with CILIA that sweep away particles
• These tubes are made of cartilage and are surrounded by smooth muscle
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CILIA
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ALVEOLI• Small structures at the end of each bronchiole• Occur in clusters• Place where gas exchange occurs– Oxygen into blood, carbon dioxide into lung– Each is surrounded by capillaries
• 300 million alveoli are in each healthy lung– Provides a large surface area for gas exchange
• Oxygen dissolves in the moisture – It can then diffuse into the capillaries– CO2 diffuses in the opposite direction– Coated in surfactant
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HEMOGLOBIN binds with so much oxygen that it increases the oxygen carrying- capacity of the
blood more than 60 times
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RECAP
• Name the structures of the respiratory system• Where does gas exchange occur?• http://www.airinfonow.org/html/lungattack/
lungplay.htm• Next: What is the difference between
respiration and breathing?
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Breathing• Breathing is the movement of air
into and out of the lungs• Lungs sit in two sacs = pleural
membranes• At the bottom of the chest cavity is
the diaphragm• Between ribs are intercostal
muscles
Force that drives breathing is air pressure– No muscles are directly
connected to the lungs
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VolumeIf you have a container of gas, how will the pressure change if you make the
container smaller?
Make it larger?
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Inhaling• When you inhale, the diaphragm contracts and expands the volume of the chest cavity
• Because the chest cavity is tightly sealed, this creates a partial vacuum inside the cavity
• Air rushes into the lungs as a result
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Exhaling• Exhaling is a passive event• Diaphragm relaxes and lungs return to normal
size, placing pressure on the lungs– Air rushes out of the lungs
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78% Nitrogen21% Oxygen
0.03% Carbon Dioxide
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Partial Pressure: “Concentration of Gas”1) Volume: If you have a container of gas, how will
the pressure change if you make the container smaller? Make it larger? – Bulk Flow ~ Breathing
2) Total atmospheric pressure = 760mmHg– Oxygen is 21% of this, therefore = 159mmHg
• O2 air > O2 alveoli > O2 blood > O2 cells• 159mmHg 100mmHg 40mmHg 40mmHg
(exchange to 100mmHg)
– Diffusion
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RECAP
• What causes breathing?• What muscles are involved with breathing?– Are they attached to the lungs?
• What controls your breathing?
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Breathing Control• Breathing is voluntary to a point, then it
becomes involuntary• Nervous system will take over– Sensory receptors in major blood vessels detect
amount of carbon dioxide in blood • b/c pH will change
– Message goes to medulla oblongata in the brain
– If the level of carbon dioxide gets too high, the diaphragm will contract
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Hb + 4O2 “HbO”
Oxygen in Blood• 98.5% is bound to Hb• 1.5% dissolved in plasmaCarbon Dioxide in Blood• 60% dissolves in H2O (as H2CO3)
• 30% binds to Hb• 10% dissolves in plasma
Carbon Monoxide• Hb affinity 200 X’s stronger• irreversible
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REGULATION of pH
• Normal plasma pH = 7.4 (Range: 7.35 - 7.45) CO2 + H20 H2CO3 H+ + HCO3
-
Waste product Always Converted to Waste product Bufferof metabolism Present Products on of metabolism
LEFT by Carbonic Anhydrase
____________________________________________________________________________________________________ Expelled by Adjusted in kidney Lung Or Rxts w/Bicarb. R. Or Rxts w/H+ on L.
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The exchange• http://www.airinfonow.org/html/lungattack/
lungplay.htm
• What can go wrong?• http://www.hisdbenefits.org/hisd/living/animations/• List of animations for respiratory disorders• http://in.truveo.com/Human-Atlas-Emphysema/id/
1459776665• Similar animations, better quality
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Breathing Quiz: Is it inhalation or exhalation?
• Diaphragm Contracts• Intercostal Muscles
relax• Chest Cavity increases
in size• Pressure in cavity
decreases• Air rushes out of
lungs
• Diaphragm relaxes• Intercostal muscles
contract• Volume of chest
cavity decreased• Pressure inside
greater• Air rushes in and
inflates lungs