Pulmonary blood flow, gas exchange and perfusion

Question 1

Describe the two types of blood supply to lungs

Answer 1

Bronchial circulation (nutritive): via bronchial arteries arising from systemic circulation to supply O2 to airway smooth muscle, nerves and lung tissue

Pulmonary circulation (gas exchange): L and R pul artieries originating from the right ventricle. Carry entire cardiac output. Supplies dense capillaries network around alveoli and return O2 blood to the left atrium via the pulmonary vein.

High flow, low pressure system.

Question 2

What is the average systolic pressure?

Answer 2

25mmHg

Question 3

What are the alveolar, arterial and venous partial pressures of O2 and CO2?

Answer 3

Alveolar: O2 is 100 and CO2 = 40
Artieral: O2 is 100 and CO2 is 40
Venous: O2 is 40 and CO2 is 46

Question 4

What are the rules for the rate of diffusion in relation to partial pressure gradient and gas solubility?

Answer 4

Directly proportional

Question 5

Which type of cell is alveoli capillaries

found beside?

Answer 5

Type 1

Question 6

Describe effect of emphysema on alveoli and gas exchange

Answer 6

Destruction of alveoli wall and elastic fibres reduces surface area for gas exchange

Question 7

Describe effect of fibrotic lung disease on gas exchange

Answer 7

Thickened alveolar membrane slows gas exchange. Loss of lung compliance may decrease the alveolar ventilation.

Question 8

Describe effect of Pulmonary edema lung disease on gas exchange

Answer 8

Fluid in interstitial space increases diffusion distance. Arterial Pco2 may be normal due to higher CO2 solubility in water.

Question 9

Describe effect of asthma on gas exchange

Answer 9

Increased ariway resistance decreases airway ventilation. There is no problem with diffusion, just ventilation

Question 10

Does blood flow increase or decrease with height across the lung?

Compare it with the ventilation

Answer 10

It decreases alongside the ventilation however,

at the base of the lung, blood flow is higher because arterial pressure exceeds alveolar pressure which compresses the alveolar

Therefore, in apex the blood flow is low because artiral pressure is less than alveolar pressure which compresses the arterioles

Question 11

Is apex or base better efficient at gas exchange?

Answer 11

Apex is less efficient

Question 12

What is a shunt and when does it occur ?

Answer 12

Shunt – the blood passes by poorly ventilated area of the lung and opposite of alveolar dead space

Occurs in ventilation perfusion mismatch

Question 13

What happens to pulmonary vessels in hypoxia?

Answer 13

Constriction

Instead, the blood is diverted to the better ventilated alveoli and that vessel dilates

Question 14

What happens to systemic vessels in hypoxia?

Answer 14

Dilation

Question 15

What is alveolar dead space?

Answer 15

Alveoli that are ventilated but not perfused (not enough gas exchange).

Also increase in alveolar PO2 which causes vasodilation

And decrease in alveolar PCO2 which causes mild bronchial constriction

Question 16

What is anatomical dead space?

Answer 16

Air in conducting zone of the respiratory tract unable to participate in gas exchange as walls of airway in region are too thick

Question 17

Partial pressure gradient for O2 is 10 times greater than Co2 even though rate of diffusion is similar, why?

Answer 17

Co2 more soluble than O2

Question 18

What is the rate of diffusion proportional to?

Answer 18

Partial pressure gradient.
Gas solubility
Available surface area

most rapid over short distances.

*remember that its inversely proportional to the thickness of the membrane

Question 19

What is the rate of diffusion inversely proportional to?

Answer 19

Inversely proportional to the thickness of the membrane

Question 20

How many ml of O2 dissolves in plasma?

Answer 20

3ml per litre

Question 21

How much does haemoglobin increase red blood cell carrying capacity?

Answer 21

200ml/L

Question 22

What does PaO2 refer to? (arterial partial pressure)

Answer 22

O2 in solution in the plasma and is determined by the solubility and partial pressure of O2 in the gaseous phase

Question 23

Why doesnt blood travel as gaseous in plasma?

Answer 23

Result in air embolism due to bubbles in blood

Question 24

Why is arterial partial pressure not the same as arterial O2 concentration?

Answer 24

Must consider the different phases that the gas moves from to liquid.

Question 25

What is the O2 delivery to tissues without and with haemaglobin?

Answer 25

Without = 15ml/min
With = 1000ml/min

O2 demand if resting tissues is 250ml/min

Question 26

What percentage of arterial O2 is extracted by the peripheral tissues at rest?

Answer 26

25%

Question 27

How much ml of O2 binds to each gram of haemoglobin?

Answer 27

1.32ml

Question 28

Describe the structure of hemoglobin

Answer 28

Consists of 4 polypeptide chains ( 1 alpha and 2 beta ) each associated with an iron containing haeme group and haemoglobin cooperatively binds 4 molecules of oxygen, 1 each to haeme group.

Question 29

What is the major determinant of degree to which haemoglobin is saturated with oxygen?

Answer 29

Partial pressure of oxygen in arterial blood

Question 30

What is the percentage of the reserve capacity for PO2?

Answer 30

75%

Question 31

Describe the oxygen-haemoglobin dissociation curve

Answer 31

Sigmoid - very steep intial start

Question 32

Why does myoglobin foetal haemglobin have higher affinity for O2 than HbA?

Answer 32

Allows extraction out of mothers blood for the baby.

Myoglobin allows extraction of extra oxygen

Question 33

Define anaemia

Answer 33

Any condition where the oxygen carrying capacity of the blood is compromised

eg; iron deficiency

Question 34

What would happen to PaO2 in anaemia

Answer 34

It would be normal

Question 35

What is saturation for rbc for those with anaemia?

Answer 35

100%

Question 36

What factors are affected in the body by anaemia?

Answer 36

Number of rbc and Hb content

Question 37

What is the effect of pH, temp, Pco2 and DPG on saturation of the haemglobin?

Answer 37

as everything increases except pH which becomes more acidic, saturation decreases as the affinity decreases for oxygen

Question 38

What does CO bind to?

Answer 38

CO binds to haemoglobin to form carboxyhaemoglob which has affinity 250 times greater than O2

Question 39

What can 0.4mmHg of Pco cause?

Answer 39

Progressive carboxyhaemoglobin formation

Question 40

What are symptoms of CO?
Is their respiration rate affected?

Treatment?

Answer 40

Hypoxia and anaemia, nausea and headaches, cherry red skin and mucous membranes. Respiration rate unaffected due to normal arterial PCO2. Potential brain damage and death.

Treatment involves proviging 10% oxygen to increase PaO2

Question 41

Describe the 5 types of hypoxia?

Answer 41

Hypoxaemic hypoxia

Question 42

Hypoxaemic hypoxia

Answer 42

Most common, reduction in O2 diffusion at lungs either due to decreased Po2atmos or tissue pathology

Question 43

Anaemic hypoxia

Answer 43

Reduction of O2 carrying capacity of blood due to anaemia

Question 44

Stagnant hypoxia

Answer 44

HEart disease results in inefficient pumping of blood to lungs

Question 45

Histotoxic hypoxia

Answer 45

poisoning prevents cells utilising oxygen delivered to them

eg: CO/cyanide

Question 46

Metabolic hypoxia

Answer 46

Oxygen delivery to the tissues does not meet increased oxygen demand by cells

Question 47

What does hyper and hypo ventilation cause?

Answer 47

Hypoventilation, causing CO2 retention, leads to increased [H+] bringing about respiratory acidosis.

Hyperventilation, blowing off more CO2, lead to decreased [H+] bringing about respiratory alkalosis