Resp Physiology

Question 1

What does internal respiration refer to?

Answer 1

The intracellular mechanisms which consume O2 and produce CO2

Question 2

What does external respiration refer to?

Answer 2

Events that lead to the exchange of O2 and CO2 between the external environment and the cells of the body

Question 3

What are the 4 steps of external respiration?

Answer 3

Ventilation
Gas exchange (alveoli-blood)
Gas transport
Gas exchange (blood-tissues)

Question 4

Define ventilation

Answer 4

The mechanical process by which air is moved between the atmosphere and the alveolar air sacs

Question 5

Air flows from a region of ___ pressure to ___ pressure

Answer 5

High, low

Question 6

Intra-alveolar pressure must be greater than atmospheric pressure for air to flow into the lungs. True/False?

Answer 6

Intra-alveolar pressure must be less than atmospheric pressure, since air flows from high to low pressure

Question 7

At constant temp, as the volume of a gas increases, the pressure exerted _____ (Boyle’s Law)

Answer 7

Decreases

Question 8

Before inspiration, intra-alveolar pressure = atmospheric pressure. True/False?

Answer 8

True

Question 9

Which 2 forces hold the lung and thoracic wall in close opposition?

Answer 9

Intrapleural fluid cohesiveness

Negative intrapleural pressure

Question 10

Describe intrapleural fluid cohesiveness

Answer 10

Water molecules present in intrapleural fluid are attracted to each other/resist being pulled apart
This causes pleural membranes to stick together

Question 11

Describe the effect of sub-atmospheric intrapleural pressure

Answer 11

Creates a transmural pressure gradient across the lung and chest wall, causing lungs to expand outwards while the chest squeezes inwards (inspiration)

Question 12

Intra-alveolar pressure = 760
Intrapleural pressure = 756
What happens across the lung wall?

Answer 12

Lungs expand outwards

Question 13

Intrapleural pressure = 756
Atmospheric pressure = 760
What happens across the thoracic wall?

Answer 13

Chest squeezes inwards

Question 14

Contraction of the diaphragm causes the volume of thorax to increase in which direction?

Answer 14

Vertically

Question 15

What is the function of external intercostal muscle in inspiration?

Answer 15

Lifts ribs up, pushes out sternum

Question 16

What is the function of surfactant?

Answer 16

Reduces alveolar surface tension

Question 17

Smaller alveoli have a smaller tendency to collapse. True/False?

Answer 17

False

More likely to collapse

Question 18

What secretes surfactant?

Answer 18

Type II alveoli

Question 19

What cause respiratory distress syndrome in new borns?

Answer 19

Not enough surfactant, leading to high alveolar surface tension

Question 20

Describe alveolar interdependence

Answer 20

When one alveoli starts to collapse, surrounding alveoli recoil in resistance, pulling the collapsing alveoli open

Question 21

What are the 2 main accessory muscles of respiration?

Answer 21

Scalenus

Sternocleidomastoid

Question 22

What is meant by tidal volume?

Answer 22

Volume of air entering/leaving the lungs in a single breath

Question 23

What is meant by inspiratory reserve volume?

Answer 23

Volume of air that can be maximally inspired beyond the tidal volume

Question 24

What is meant by inspiratory capacity?

Answer 24

TV + IRV

Question 25

What is meant by expiratory reserve volume?

Answer 25

Volume of air that can be maximally expired beyond the tidal volume

Question 26

What is meant by residual volume?

Answer 26

Volume of air remaining in lungs after maximal expiration

Question 27

What is meant by functional residual capacity?

Answer 27

Volume of air remaining in lungs following normal expiration

ERV + RV

Question 28

What is meant by vital capacity?

Answer 28

Volume of air that can be maximally expired following maximal inspiration
TV + IRV + ERV

Question 29

What is meant by total lung capacity?

Answer 29

Maximum volume of air the lungs can hold

VC + RV

Question 30

Residual volume can be measured with a spirometer. True/False?

Answer 30

False

Question 31

What is meant by forced vital capacity?

Answer 31

Volume of air that can be forcefully maximally expired following maximum inspiration

Question 32

In obstructive airways disease, FVC is low and FEV1 is low, but the FEV1/FVC ratio stays the same. True/False?

Answer 32

False

FVC is normal/low, FEV1 is low, FEV1/FVC ratio is reduced

Question 33

In restrictive airways disease, FVC is ___ and FEV1 is ___, and the FEV1/FVC ratio is ____

Answer 33

Low, low, normal

Question 34

What is the primary determinant of resistance to airflow?

Answer 34

Radius of the conducting airway

Question 35

Intrapleural pressure falls during expiration. True/False?

Answer 35

False

Rises during expiration; falls during inspiration

Question 36

What is meant by dynamic airway compression?

Answer 36

The rising intrapleural pressure during expiration compresses the alveoli and airway

Question 37

What is pulmonary compliance?

Answer 37

How easy/difficult it is to stretch the lungs

Question 38

Low pulmonary compliance means that the lung does not have to work as hard to inflate. True/False?

Answer 38

False

Decreased compliance means more effort isrequired to inflate the lungs

Question 39

What is anatomical dead space with regards to airways?

Answer 39

Part of the airways where gas exchange does not occur

Question 40

Pulmonary Ventilation = volume of air breathed in and out per minute = ?

Answer 40

RR x TV

Question 41

Alveolar ventilation is greater than pulmonary ventilation. True/False?

Answer 41

False

It is less than pulmonary ventilation due to dead space

Question 42

Define alveolar ventilation

Answer 42

Volume of air exchanged between the atmosphere and alveoli per minute

Question 43

How can pulmonary ventilation be increased?

Answer 43

Increase the depth of breathing

Increase the respiratory rate

Question 44

Blood flow is faster at the top of the lungs. True/False?

Answer 44

False

Faster at the bottom

Question 45

V/Q ratio is better at the top of the lungs. True/False?

Answer 45

True

Question 46

Accumulation of CO2 as a result of _____ perfusion leads to _____ airflow (by _____ airflow resistance)

Answer 46

Increased, increased, decreasing

Question 47

Accumulation of O2 as a result of ____ ventilation leads to pulmonary vaso____

Answer 47

Increased, vasodilation

Question 48

What are the 4 factors which influence the rate of gas exchange across the alveolar membrane?

Answer 48

Partial pressures of O2 and CO2
Diffusion coefficient of O2 and CO2
Surface area of membrane
Thickness of membrane

Question 49

The partial pressure of O2 is less than the partial pressure of CO2. True/False?

Answer 49

False

Question 50

What is the diffusion coefficient of a gas?

Answer 50

The solubility of the gas in membranes

Question 51

The diffusion coefficient of CO2 is __ times that of O2

Answer 51

20

Question 52

The amount of gas that will dissolve in a given volume is proportional to the ________ of the gas at equilibrium within the liquid (Henry’s Law)

Answer 52

Partial pressure

Question 53

If the partial pressure is increased, less gas will dissolve. True/False?

Answer 53

False

More gas will dissolve

Question 54

PO2 is normally ___ mm Hg (___ kPa)

Answer 54

100 mm Hg, 13.3 kPa

Question 55

Most O2 is transported in the blood in the dissolved form. True/False?

Answer 55

False

Most is bound to haemoglobin

Question 56

How many haem groups does one haemoglobin molecule contain?

Answer 56

4

Question 57

What is the primary determination of haemoglobin O2 saturation?

Answer 57

PO2

Question 58

When the concn of haemoglobin is decreased, what happens to oxygen saturation? Why?

Answer 58

Stays the same
Remaining haemoglobin is still fully saturated as PO2 remains the same, but less haemoglobin means there is less oxygen being carried in total - but saturations are normal!

Question 59

Binding of one O2 to haemoglobin increases affinity of Hb for O2. True/False?

Answer 59

True

Question 60

What is the Bohr Effect?

Answer 60

Increased release of O2 from Hb at tissues (sigmoid shifts to right)

Question 61

Where is myoglobin mainly present?

Answer 61

Skeletal and cardiac muscle

Question 62

Presence of myoglobin in the blood indicates what?

Answer 62

Muscle damage

Question 63

What are the 3 methods of CO2 transport in the blood?

Answer 63

Solution
As bicarbonate
As carbamino compounds

Question 64

Most CO2 is transported in the blood as what?

Answer 64

Bicarbonate

Question 65

Which enzyme catalyses formation of bicarbonate?

Answer 65

Carbonic anhydrase in RBCs

Question 66

Where does CO2 bind on haemoglobin to form carbaminohaemoglobin?

Answer 66

Globin part

Question 67

Reduced Hb binds more CO2 than HbO2. True/False?

Answer 67

True

Question 68

What is the Haldane Effect?

Answer 68

Removing O2 from Hb increases Hb’s affinity for CO2 and CO2-generated H+
i.e. O2 will be released at tissues; this will increase affinity of Hb for CO2; thus CO2 will be taken up from tissues!

Question 69

Which part of the brain is the main rhythm generator of breathing?

Answer 69

Medulla

Question 70

The rhythm generated in the medulla can be modified by neurones in what other part of the brain?

Answer 70

Pons

Question 71

Stretch receptors can influence the respiratory centres in the brain. What do they do and guard against?

Answer 71

Inhibit inspiration

Guard against overinflation of lungs

Question 72

Joint receptors influence respiratory centres in the brain, how?

Answer 72

Moving limbs leads to increased breathing

Question 73

What is the function of chemoreceptors?

Answer 73

Sense values of gas/chemical tensions

Question 74

Chemoreceptors which sense tension of O2, CO2 and [H+] in the blood

Answer 74

Peripheral chemoreceptors

Question 75

Where are peripheral chemoreceptors located?

Answer 75

Carotid + aortic bodies

Question 76

Chemoreceptors which sense the [H+] of the CSF

Answer 76

Central chemoreceptors

Question 77

Where are central chemoreceptors located?

Answer 77

Near the medulla

Question 78

What separates CSF from blood?

Answer 78

Blood-brain barrier

Question 79

CO2 and [H+] diffuse readily across the blood-brain barrier. True/False?

Answer 79

False

Only CO2 diffuses readily

Question 80

Stimulation of peripheral chemoreceptors (by [H+]) causes hypoventilation and CO2 retention. True/False?

Answer 80

False

Hyperventilation and CO2 elimination