Ventilation

Question 1

What does ventilation refer to?

Answer 1

The amount of air entering and leaving the lungs per minute.

Question 2

What is alveolar ventilation?

Answer 2

The amount of air exchanging with blood - Air actually getting to the alveoli

Question 3

How is CO2 concentration in alveolar gas related to ventilation?

Answer 3

They are inversely related.

Question 4

What is anatomic dead space?

Answer 4

The amount of a breath not reaching alveoli

Question 5

What is the physiologic dead space?

Answer 5

The amount of a breath not exchanging with blood (measured by ratio of CO2 in expired air vs. arteries)

Question 6

What regions of the lung are ventilated better?

Answer 6

The lower regions are ventilated better than the upper regions.

Question 7

What does ventilation describe?

Answer 7

How gas (oxygen) gets to the alveoli

Question 8

What is one of four general causes of reduced oxygen in the blood (hypoxia)?

Answer 8

A reduction in ventilation

Question 9

What are six things that can cause a reduction in ventilation?

Answer 9

1. Drugs (opiates)
2. Brain damage
3. Breathholding
4. Pneumothorax
5. Nerve damage
6. Muscle damage

Question 10

What is Tidal Volume? What is it’s average value?

Answer 10

The amount of air inspired and expired in routine breathing.
About 500 ml.

Question 11

What is total lung volume usually about?

Answer 11

4000 mL

Question 12

What is total lung capacity usually about?

Answer 12

7000 mL

Question 13

What is vital capacity? What is it’s value?

Answer 13

The maximum volume of air that can be exhaled after a maximum inspiration. [The largest breath you can take!]
About 6000 mL.

Question 14

What is residual volume? What is it’s value?

Answer 14

The amount remaining in the lungs after a maximal expiration.
About 1500 mL.

Question 15

What is Functional Residual Capacity? What is it’s value?

Answer 15

The amount remaining in the lungs after a typical exhalation.
About 2500 mL.

Question 16

How can you measure Functional Residual Capacity?

Answer 16

You can’t measure this directly, BUT you can calculate it!

Question 17

What can you measure/calculate with the Gas Dilution Technique?

Answer 17

• Functional residual volumes
• Tidal volumes
• Vital Capacity

Question 18

What other technique can be used to measure Lung Volume?

Answer 18

Plethysmograph

Question 19

How does a plethysmograph measure?

Answer 19

It measures pressure in a box of fixed volume surrounding an individual.
-You have to measure change in pressure in the mouth along with change in volume in the box.

Question 20

What two equations should you know with the plethysmograph?

Answer 20

1. P1V1 = P2V2

2. Change in volume = V2-V1

Question 21

What is Total Ventilation?

Answer 21

The amount of air entering and leaving the lung each minute.

Question 22

How is Total Ventilation usually calculated? What is it’s usual value?

Answer 22

Volume*bpm = Total Ventilation

500 mL*15bpm = 7500 mL/min

Question 23

How much of each breath with Total Ventilation usually reaches the alveoli?

Answer 23

350 mL

Question 24

How much of each breath remains in the anatomic dead space with Total Ventilation?

Answer 24

150 mL

Question 25

How do we calculate Alveolar ventilation? What is it’s usual value?

Answer 25

Volume reaching alveoli*bpm = Alveolar ventilation

350 mL*15bpm = 5250 mL/min

Question 26

How can you calculate Alveolar ventilation?

Answer 26

Take the amount of CO2 in the exhaled air divided by the fractional concentration of CO2 in the expired air.

Question 27

What is the equation used to calculate Alveolar ventilation?

Answer 27

VA = VCO2/PCO2*K
VCO2 = amount of CO2 produced/minute
K = constant around 1000
PCO2 = about 40

Question 28

How can (Anatomic) Dead Space Volume be measured?

Answer 28

By breathing pure O2.

Question 29

How is (Anatomic) Dead Space Volume calculated using a graph?

Answer 29

1. Expired gas is plotted vs. N2 in expired gas
2. N2 concentration increases with expiration until it reaches a peak [The peak represents pure alveolar gas]
3. One can calculate dead space by finding the midpoint (half-maximal) N2 concentration such that the volume above and below this point are equal –> this represents the volume of anatomic dead space

Question 30

What does the midpoint (half maximal) N2 concentration tell us?

Answer 30

It measures the midpoint in the transition from dead space to alveolar ventilation.

Question 31

How can Physiological Dead Space be calculated?

Answer 31

By taking the fraction of CO2 in expired gas and comparing it to alveolar gas.

Question 32

What is the Bohr Equation? What is it used to measure?

Answer 32

Vd/VT = (PACO2 - PECO2)/PACO2
Physiological Dead Space = Vd
Tidal volume = VT
PACO2 = arterial Pco2

Question 33

What machine is used to measure vital capacity?

Answer 33

Spirometer

Question 34

What does vital capacity depend on that varies between people?

Answer 34

Depends on size (women tend to have smaller vital capacities)

Question 35

What happens when you hard exhale?

Answer 35

This crushes the small airways/alveoli

Question 36

What causes the breath sounds heard upon expiration in asthma?

Answer 36

They have a lot more resistance in the lung so exhaling and crushing the alveoli takes more time

Question 37

What are some obstructive lung diseases? What happens to the alveoli in these disease?

Answer 37

Alveoli gets crushed.

-COPD, emphysema, bronchitis, asthma

Question 38

What volume cannot be measured by a spirometer?

Answer 38

Residual volume

Question 39

What can change your residual volume?

Answer 39

Some diseases

Question 40

What do you call the additional air you can exhale after your regular exhaled breath?

Answer 40

Expiratory reserve volume

Question 41

What is the functional residual volume/capacity?

Answer 41

What’s remaining in the lungs after a “normal” exhale. Usually 2/2.5 L.

Question 42

What test can you use to measure Functional Residual Capacity?

Answer 42

Helium gas dilution technique

Question 43

What determines functional residual volume?

Answer 43

The natural resting state of the chest. Where lung contracting and chest expanding is exactly balanced. This makes it require very little energy to breathe.

Question 44

How does the Helium gas dilution technique work?

Answer 44

1. Usually 5L of helium at 10% is given to the person to breathe into until it equilibrates.
2. Helium is not taken up by blood, but gets diluted in the lungs
3. This is diluted based on the volume of the lungs
4. As you dilute the helium, you can measure this dilution (concentration) and the amount of helium released and use it to measure lung volume.

Question 45

What diseases have very large residual volumes? How much volume is this?

Answer 45

COPD (barrel-chested)

5-6 L

Question 46

What principle is the gas dilution technique based upon?

Answer 46

Fick’s Principle

Question 47

What is the most effective way of determining residual volume?

Answer 47

Plethysmograph

Question 48

Do you measure residual volume directly or indirectly?

Answer 48

Indirectly

Question 49

What is the average alveolar ventilation?

Answer 49

5L/min

Question 50

What happens to your pCO2 if you increase alveolar ventilation (VA)?

Answer 50

pCO2 drops rapidly!!

Question 51

The faster you breathe, the lower your. .

Answer 51

pCO2!

Question 52

What does a low pCO2 and high respiration indicate?

Answer 52

Respiratory alkalosis –> can present with panic attacks

Question 53

What causes low pCO2 with a high RR?

Answer 53

You produce CO2 and it gets diluted by the air you breathe. If you breathe a lot of air in and out, it gets diluted. If you don’t breathe much, it’s more concentrated. (this is IMP and relevant to alkalosis and acidosis)

Question 54

What percentage of a normal breath is alveolar ventilation?

Answer 54

30%

Question 55

What will the PO2 be in better perfused regions of the lung?

Answer 55

Lower

-PO2 reflects the amount of oxygen gas dissolved in the blood