Chapter 17 Respiratory System Part 2

Question 1

The mucocillary escalator of the trachea is an example of which type of defense?

A. Specific defense
B. Non-specific defense
C. Cellular-mediated
D. Antibody-mediated

Answer 1

B. Non Specific defense

Question 2

Gas exchange occurs in the air-conducting passages of the respiratory system.

A. True
B. False

Answer 2

B. False

Question 3

What are the three process of the respiration process?

Answer 3

Three processes:

• Pulmonary Ventilation
  
  • Physical movement of air into the lungs
• Gas Diffusion
  
  • Across the respiratory membrane
• Gas Transport
  
  • To tissues in the body

Question 4

What is Process 1?

Answer 4

Pulmonary Ventilation

Boyles Law:

• The pressure of a given quantity of gas is inversely proportional to its volume (like blood in the heart, only applied to a gas instead of liquid)
• Gases move from high pressure to low pressure

Question 5

What are the pressures of ventilation?

Answer 5

• Atmospheric pressure  air pressure outside the body
• Intrapulmonary pressure  air pressure in lungs
  
  • If there is an increase in lung volume, intrapulmonary pressure decreases compared to atmospheric pressure.
  • If there is a decrease in lung volume, intrapulmonary pressure increases compared to atmospheric pressure
• Intrapleural pressure  pressure between membranes
  
  • Prevents lungs (which are elastic) from collapsing

Question 6

What happens when the thoracic cavity changes size?

Answer 6

• Lung volume is proportional to thoracic cavity volume
  
  • Due to mechanism of lung pleurae
• Size changes by skeletal muscles: ribs, diaphragm, and abdominal
• Cavity expands via contraction, Poutside > Pinside = inspiration
• Relaxation of muscle causes cavity to shrink, Poutside < Pinside = exhalation
• Both voluntary and involuntary control is involved in inhalation
• Exhalation is normally passive
  
  • Muscles relax and recoil of lungs decreases size of thoracic cavity

Question 7

What is respiratory rate and tidal volume?

Answer 7

Respiratory rate (f) = breaths per minute (avg. 15)
 Tidal volume (Vt) = amount of gas inhaled during one breath (avg. 500mL)

Question 8

How do you find the respiratory minute volume (Ve) and what is it?

Answer 8

• Respiratory Minute Volume (Ve)
  
  • Volume inhaled in one minute
  • Ve = f x Vt
  • Ve = 15/minute * 500ml = 7500mL or 7.5 liters/minute

Question 9

How do you calculate Avelolar Ventilation (Va) and what is it?

Answer 9

• Alveolar Ventilation (Va)
  
  • Air at the alveolar respiratory membrane per minute
  • Subtract air from conducting system (anatomic dead space, Vd) from tidal volume
  • Va = f * (Vt-Vd)
  • Va = 15 * (500mL-150mL) = 5250mL or 5.25 liters/minute

Question 10

How could a person improve the amount of air involved with gas exchange in the lungs?

A. Decrease respiratory rate
B. Decrease size of thoracic cavity
C. Increase tidal volume
D. Increase anatomic dead space

Answer 10

C. Increase tidal volume

Question 11

What is process 2 and what is the average atmospheric pressure?

Answer 11

Diffusion

• The air we breath is a mixture of gases
• Each gas contributes a partial pressure to the total overall pressure
  
  • Overall pressure – weight of the air on us!
• Atmospheric pressure = 760 mmHg
  
  • Gases have partial pressures when dissolved in liquids, like blood

Question 12

What are concentration gradients of gases?

Question 13

What is the process of the concentration gradient?

Answer 13

• Blood at alveolus
  
  • PO2 – 40mmHg
  • PCO2 – 45mmHg
• Air in alveoli
  
  • PO2 – 100mmHg
  • PCO2 – 40mmHg
• Blood after exchange
  
  • PO2 – 100mmHg
  • PCO2 – 40mmHg
  • Equilibrium between alveoli and blood
• This process repeats at capillary bed in tissue

Question 14

If the partial pressure of oxygen is 95mmHg in muscle tissue of your leg and 40mmHg in the blood of the capillary bed associated with that muscle, which way will oxygen diffuse?
A. Into the capillary
B. Into the muscle cells
C. Diffuse equally between the two
D. Depends of carbon dioxide partial pressure

Answer 14

A. Into the capillary

• Cells are going to be lower in oxygen in the capillary beds

Question 15

What are the factors affecting gas exchange?

Answer 15

• Concentration gradients of gases
  
  • Larger gradient, higher diffusion rate
• Gas solubility
  
  • CO2 20 times as soluble as O2
  • O2 has  conc. gradient, however CO2 has  solubility
• Thickness of respiratory membrane

Question 16

What is the surface area of the respiratory membrane?

Answer 16

• Respiratory membrane surface area
• Spread over 70 m2 per lung
• About the size of a tennis court

Question 17

What is another factor that affects gas exchange that has to do with size?

Answer 17

• Respiratory membrane surface area
  
  • 100 ml blood in alveolar capillaries, spread over 70 m2