CHAPTER 15
External & Internal Respiration:
Fig 15.1
Lung structures:
Conducting zone
Trachea
Bronchi
Bronchioles
Terminal bronchioles
Respiratory structures
Respiratory broncioles
Alveolar DUCTS
ALVEOLI
(see Fig 15.3)
Fig 15.5
Alveoli
• Surrounded by capillaries
• 300 - 500 million
• 75 m2 total surface area
• Very short diffusion distance
• Fig 15.5
• Fig 15.6
• Fig 15.7
Respiratory structures
• Diaphragm
• Thorasic cage
• Ribs (12 pairs)
• Sternum
• Intercostal muscles:
• External and internal
• see Figs 15.10
Fig 15.10: Muscles of Ventilation
Fig 15.9
Fig 15.15: Spirometer
TIDAL VOLUME vs. ALVEOLAR VENTILATION
500 ml / breath x 12 breaths / min
150 ml / breath x 40 breaths / min
1000 ml /breath x 6 breaths / min
IN EACH CASE TIDAL VOLUME = 6 L / min
SO, WHICH ONE IS BEST?
Consider DEAD SPACE
You must subtract the volume of each breath that does not reach the
alveoli to get the alveolar ventilation rate
To illustrate, try breathing through a garden hose
(500 - 150 ml) / breath x 12 breaths / min = 4200 ml / min
(150 - 150 ml) / breath x 40 breaths / min = 0 ml / min
(1000 - 150 ml) /breath x 6 breaths / min = 5100 ml
/ min
LaPlace’s Law as applied to alveoli:
P = 2T / r
FROM INHALATION TO EXHALATION:
P = 2 X 50 dynes/cm P = 2 X 50
dynes/cm
0.05 cm
0.025 cm
P = 2000 dynes/cm2 P = 4000 dynes/cm2
Therefore, surface tension must decrease as alveolar radius decreases!
Thus, as alveolar radii decrease, the (2T / r) or alveolar wall tension gets larger than the pressure and alveoli would collapse.
How do alveoli adjust to prevent this?
Surface tension:
Due to its polar nature, water molecules adhere together, giving rise
to surface tension at air - water interfaces
To decrease surface tension, add detergent! (also called surface
active agent
or
surfactant)
Secreted by Alveolar Type II Pneumocytes
THUS Surface Tension is proportional to 1/ [DPL] at the surface of the water layer in the alveoli and it changes as alveoli change radii during respiration
see Toolbox on page 486-7 !!!
As alveolar r decreases during exhalation, LaPlace’s Law
P = 2T/r
is satisfied and the alveoli do not collapse.
Hyaline membrane disease:
An insufficiency of dpl secretion by a new born