Respiratory Physiology

Question 1

How does the intrapleural pressure relate to the atmospheric pressure ordinarily?

Answer 1

Is usually negative with respect to the atmosphere (to draw air in down gradient)

Question 2

Describe the intrapleural cohesive force

Answer 2

Intrapleural cohesive force is similar to that experienced with a water drop placed between two glass slides – they can slide over each other but cannot separate them, and therefore as the chest wall expands during inspiration, the lung is obligated to follow, so the two structures expand as a single unit

Question 3

Describe the changes in intrapleural pressure during breathing

Answer 3

Pleural pressure at start of inspiration is slightly negative, intrapleural pressure becomes more negative during expansion of the ribcage and then as intrapleural pressure becomes less negative this leads to quiet expiration (passive)

Question 4

How can you calculate lung compliance?

Answer 4

Compliance = change in volume/change in pressure

Question 5

What are surface tension elastic forces?

Answer 5

On the inner surface of the alveoli the water surface is trying to contract which results in the alveoli trying to collapse and forcing air out through the bronchi

Question 6

What would reduced compliance of the lungs suggest?

Answer 6

A reduced compliance may suggest an increase in fibrous issue in the lung (pulmonary fibrosis), collapse or increase in pulmonary venous pressure

Question 7

What would increased compliance of the lungs suggest?

Answer 7

Emphysema or age

Question 8

What is emphysema?

Answer 8

Where there is destruction of the normal lung architecture (including elastic fibres and collagen) so recoil is impaired –> lungs don’t deflate as easily. However, the lung is more easily distended and therefore the compliance of the lung is increased

Question 9

What does fibrosis in the lungs lead to?

Answer 9

Decreased compliance when the same amount of pressure is applied, and therefore the lungs are harder to inflate

Question 10

What is a pneumothorax?

Answer 10

If air enters the pleural space

Question 11

What is infant respiratory distress syndrome?

Answer 11

Developmental insufficiency of surfactant production and structural immaturity in the lungs at birth

Question 12

How does asthma affect airway resistance?

Answer 12

The contraction of bronchial smooth muscle narrows the airway and increases resistance in response to an allergen

Question 13

Describe laminar flow

Answer 13

The movement is orderly and streamlined

Question 14

Describe turbulent flow

Answer 14

Movement is chaotic

Question 15

Where does almost half of resistance to airflow stem from?

Answer 15

Upper respiratory tract (nose, pharynx and larynx)

Question 16

Describe the changes in alveolar pressure during a normal breathing cycle

Answer 16

Begins at zero when there is no airflow (same as atmospheric), during inspiration it becomes slightly negative to draw air in, and then slightly positive during expiration to force air out

Question 17

What is functional vital capacity (FVC)?

Answer 17

Amount of air which can be forcibly exhaled from the lungs after taking the deepest breath possible

Question 18

What is tidal volume?

Answer 18

Normal volume of air breathed in/out

Question 19

What is residual volume (RV)?

Answer 19

Amount of air left after maximal expiration

Question 20

What is functional residual capacity (FRC)?

Answer 20

Volume of air present in the lungs at the end of passive expiration; ERV + RV

Question 21

What is expiratory reserve volume?

Answer 21

Amount of additional air that can be forced out

Question 22

What is inspiratory reserve volume?

Answer 22

Amount of extra air that can be inhaled

Question 23

How do you calculate inspiratory capacity?

Answer 23

Tidal volume + inspiratory reserve volume

Question 24

How do you calculate vital capacity?

Answer 24

Inspiratory reserve volume + expiratory reserve volume + tidal volume

Question 25

How do you calculate total lung capacity?

Answer 25

Inspiratory reserve volume + expiratory reserve volume + tidal volume + residual volume

Question 26

What is forced expiratory ratio 1 (FEV1)?

Answer 26

Maximum exhalation volume in 1 second

Question 27

What is the anatomical dead space?

Answer 27

Volume of air in the mouth, pharynx, trachea and bronchi up to the terminal bronchioles

Question 28

What is the physiological dead space?

Answer 28

Anatomical air space + alveolar dead space; in health individuals there should only be anatomical dead space, but with age or disease, alveolar dead space appears

Question 29

Define alveolar ventilation

Answer 29

The portion of the total ventilation that reaches the alveoli and participates in gas exchange.

Question 30

How do you calculate alveolar ventilation?

Answer 30

Alveolar ventilation (ml/min) = pulmonary ventilation (ml/min) – dead space ventilation (ml/min)