BIO 365S Lecture Notes - Lecture 22: Rib Cage, Nasal Cavity, Cellular Respiration
Chapter 17
Respiratory System
The respiratory system is analogous to the cardiovascular system
Pump & pump rate
Fluid & flow
Site of regulation of R
Exchange surface
Need pressure gradient. Exhale, relax muscle body of thoracic cage decrease, pressure increase
(pressure inside thoracic cage is higher than outside), so air goes outside.
Pneumothorax: every time you breathe, still contract muscle but no air flow bc no pressure
gradient.
Lungs – have muscles you can control. Lungs = pump like the heart.
Diaphragm – skeletal muscle, can voluntary control.
Can contract and dilate in bronchioles (analogous to heart controlling arterioles) to make it
easier or difficult to move into lungs.
Blood flow velocity is highest in aorta, lowest in capillaries bc total surface area. Flow rate is all
the same in the whole cardiovascular system. If different, blood will accumulate somewhere,
start to have a balloon = hydraulic pressure (blood will flow out = emphysema, usually happens
in the lungs).
Exchange surface: millions of alveoli for gas exchange, use diffusion for gas exchange (diffusion
depends on surface area).
Upper Respiratory:
Mouth
Nasal cavity
Pharynx
Larynx
Lower Respiratory:
Trachea
Bronchi
Bronchioles
Lungs
Air → esophagus and airway (has a flap that closes when food goes through, but most of the
time remains open since we breathe more than we eat) → larynx → trachea (like aorta, one big
one, has a lot of cartilage) → bronchus (left and right) → diverge and diverge again, will have
millions of bronchioles connected to millions of alveoli.
Successful respiration requires all 4 processes!
After bringing O2 in, it gets diffused into capillaries. In lung, has millions of capillaries, each
alveolus has 1 capillary paired with it = lungs have capillary network. O2 diffuses into blood
(Lung edema = body has problem getting oxygen, problem at exchange 2 because problem
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transferring to blood; smoking = scar tissue, increases distance b/w lung and blood diffusion) →
after diffusio, the ardioasular sste’s jo (aeia = ot eough lood to arr oge;
sickle cell anemia), can have these problems in the blood or in the heart → deliver oxygen to
tissue (high O2 in blood, low in tissue) → eventually muscles and brain need O2 and glucose to
produce ATP (cellular respiration requires O2), byproduct CO2
The respiratory system consists of conducting vs. respiratory (exchange) zones
Conducting zone: pipes (trachea, bronchi)
Respiratory zone: gas exchange areas (most have alveoli, some bronchioles but not as good).
Reversing tree
One trachea → 2 primary bronchi → 2nd bronchi → 3rd bronchi, exponentially increase until
reached alveoli (millions of them). One the branch becomes smaller, have less cartilage and
more smooth muscle (bc need to be smaller).
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