Ventilation and Compliance

Question 1

What is surfactant?

Answer 1

Produced by type II alveolar cells and reduces surface tension by disrupting cohesive forces between water molecules and therefore reducing tendency for alveoli to collapse

Question 2

How is surface tension created?

Answer 2

By thin fluid between alveolar cells and air increasing stretch resistance, making breathing more difficult

Arises due to H bonds between water molecules

Question 3

Explain the Law of LaPlace

Answer 3

The surface tension is directed toward the centre - law states that pressure inside a bubble is due to SURFACE TENSION (T) and RADIUS (r)

P = 2T/r

Question 4

What is the relationship between the size of the bubble and surfactant effect?

Answer 4

IF two bubbles have different diameters but same surface tension:

The pressure inside the smaller one is GREATER and INCREASED resistance to stretch

If alveoli did not have surfactant and ST was equal in all alveoli - pressure would equalise by air flowing into the larger alveoli

Question 5

What are the effects of surfactant?

Answer 5

Reduces surface tension and thus tendency for alveoli to collapse
Increases lung compliance
Reduces lung tendency to recoil
Makes work of breathing easier

Question 6

What can premature babies suffer due to inadequate amount of surfactant?

Answer 6

Infant Respiratory Distress Syndome (IRDS)

Surfactant produced ~25weeks, so premature babies requires a lot of energy to breathe

Question 7

What is the effect of saline in the lungs?

Answer 7

Less intrapleural pressure required to inflate lungs as it does not need to overcome surface tension as no air-water interface

Question 8

What are the normal alveolar PO2 and PCO2 levels?

Answer 8

PO2 - 13.5kPa (100mmHg)

PCO2 - 5.3 kPa (40mmHg)

Question 9

What happens in hyperventilation?

Answer 9

Increased alveolar ventilation causing ALKALOSIS

PO2 increase to 120mmHg
PCO2 falls to 20mmHg

Question 10

What happens in hypoventilation?

Answer 10

Decreased alveolar ventilation causing ACIDOSIS

PO2 falls to 30mmHg
PCO2 increased to 100mmHg

Question 11

Pulmonary vs alveolar ventilation

Answer 11

Pul - total air getting to lung
Alv - fresh air getting to alveoli and available for gas exchange

(L/min)

Question 12

What is compliance?

Answer 12

Change in volume relative to the change in intrapleural/alveolar pressure

Question 13

Why is greater change in pressure required during inspiration than expiration?

Answer 13

To overcome tissue inertia (initial ST) to allow compliance

Question 14

Why does ventilation and compliance decrease from base to apex?

Answer 14

At rest, capillaries are closed at the apex due to low hydrostatic pressure, whereas they’re open at the base due to high hydro. pressure

Question 15

What would happen to the FEV1/FVC ratio in obstructive disease?

Answer 15

Decrease - as airflow obstructed so cant expire as fast

Question 16

What would happen to the FEV1/FVC ration in restrictive disease?

Answer 16

No change - as air flow not obstructed but cant take in as much air

Question 17

What is Tidal Volume (TV) and its value?

Answer 17

Vol. of air breathed in and out at each breath

500mlmL

Question 18

What is Expiratory Reserve Volume (ERV) and its value?

Answer 18

Max. air that can be expelled at the end of normal expiration
1100mL

Question 19

What Is Inspiratory Reserve Volume (IRV) and its value?

Answer 19

Max. air that can be drawn into the lungs at the end of normal inspiration
3000mL

Question 20

What is the residual volume (RV) and its value?

Answer 20

Vol. of gas in lungs at end of maximal expiration

1200mL

Question 21

What is the vital capacity (VC) and its value?

Answer 21

Tidal volume + IRV + ERV

4600mL

Question 22

What is the Total Lung Capacity (TLC) and its value?

Answer 22

Vital capacity + residual volume

5800mL

Question 23

What is inspiratory capacity (IC) and its value?

Answer 23

TV + IRV

3500mL

Question 24

What is Functional Residual capacity and its value?

Answer 24

RV + ERV

2300mL

Question 25

What is FEV1:FVC?

Answer 25

Fraction of forced vital capacity expired in 1 sec

Question 26

How do you work out the total pulmonary ventilation from tidal volume and respiratory rate?

Answer 26

TV (mL) X RR = Total Pulmonary vent. (ml/min)

Question 27

What is partial pressure?

Answer 27

The pressure of a gas in a mixture

Question 28

How do you work out the partial pressure of a gas?

Answer 28

% of gas in mixture X pressure of entire gas mixture

Question 29

Why is surfactant more effective in smaller alveoli and why is this important?

Answer 29

Surfactant more concentrated in smaller alveoli, making their surface tension less than larger alveoli

Lower surface tension helps equalise the pressure among different sizes and makes it easier to inflate the smaller alveoli

Question 30

When does surfactant begin production in the foetus?

Answer 30

25 weeks gestation and complete by 36 weeks

Question 31

What causes infant respiratory distress syndrome (IRDS)?

Answer 31

Premature babies have inadequate surfactant conc. in alveoli which causing low-compliant (stiff) lungs and alveoli that collapse on expiration

Question 32

What does high compliance indicate?

Answer 32

Large increase in lung volume for small decrease in ip pressure

Beneficial only if you have high recoil as well

Question 33

What does low compliance indicate?

Answer 33

Small increase in lung volume for large decrease in ip pressure

Question 34

What is the effect of work of respiration in emphysema?

Answer 34

Loss of elastic and thus decreased recoil, so higher compliance (easy to fill lungs) but requires more work to expire

Question 35

What in the effect of fibrosis on work of respiration?

Answer 35

Inert fibrous tissue means effort of inspiration increases (less compliance)

Question 36

At any given transpulmonary pressure, which part of the lung produces a greater change in volume?

Answer 36

The base as it is more compliant than the apex

Question 37

Why does compliance decrease from the base to the apex?

Answer 37

Due to alveoli at the apex being more inflated at FRC
At the base, the alveoli are compressed between the weight of the lung above and the diaphragm below and hence more compliant on inspiration

Question 38

Why doe FEV1:FVC not decrease in restrictive diseases and give examples?

Answer 38

Loss of lung compliance due to lung stiffness and incomplete lung expansion

Fibrosis
IRDS
Oedema
Pneumothorax

Question 39

What is an investigation that can measure lung function?

Answer 39

Spirometry

Question 40

Can residual volume be measured with spirometry?

Answer 40

No

Question 41

What is the percentage of FEV1/FVC in someone with normal lung function?

Answer 41

80%

Question 42

Why is spirometry not always indicative of health?

Answer 42

As obstructive it will decrease, but can remain constant in restrictive diseases