Aterial Blood Gas Measurement

Question 1

How is haemoglobin saturation measured

Answer 1

Using absorption spectroscopy - saturated haemoglobin is red while unsaturated haemoglobin is blue so these absorb at different wavelengths and this allows deduction of the saturation of haemoglobin.

Question 2

What is measured in blood gas analysis

Answer 2

Hydrogen ion concentration, oxygen and CO2 content.

Question 3

What cannot be directly measured but has to be calculated from arterial blood gas measurement

Answer 3

Bicarbonate.

Question 4

What is bound to carboxyhaemoglobin

Answer 4

Carbon monoxide

Question 5

What is bound to carbaminohaemoglobin

Answer 5

Carbon dioxide

Question 6

Why can’t oxygen bind to mathaemoglobin

Answer 6

Because the Fe2+ ion is replaced by an Fe3+ ion and oxygen cannot bind to Fe3+.

Question 7

How does carbon monoxide poising come about and how is it treated

Answer 7

Because carbon monoxide has a higher affinity for haemoglobin compared to oxygen so displaces oxygen and causes hypoxia. It can be treated using high concentration oxygen.

Question 8

What is the partial pressure of oxygen in the air

Answer 8

21kPa

Question 9

What is the total pressure in the atmosphere

Answer 9

100kPa

Question 10

What is a normal PaO2

Answer 10

Between 13 and 14 kPa.

Question 11

What happens to the PaO2 if atmospheric pressure is reduced

Answer 11

The PaO2 also reduces

Question 12

What facts do you need to know to figure out if someones oxygenation is effective and working properly

Answer 12

Their inspired oxygen (e.g. air, 60% oxygen etc) and there PaO2.

Question 13

What may be the issue if someone has low PaO2 for their inspired oxygen concentration

Answer 13

V/Q mismatching. This may be caused by an area of consolidation such as in pneumonia. Exchange is impaired in pneumonia due to the filling of alveolar spaces so no matter how much you increase the inspired concentration of oxygen, perfusion of the blood is not going to increase.

Question 14

Which type of receptors detect high carbon dioxide in the blood and stimulate hyperventilation

Answer 14

Chemoreceptors.

Question 15

In what situation in V/Q mismatching may CO2 be high as well as oxygen low

Answer 15

This happens when the normal part of the lung cannot compensate for the high CO2 by hyperventilation. This happens when there is widespread V/Q mismatch.

Question 16

What is type 1 respiratory failure

Answer 16

When there is low oxygen and normal carbon dioxide.

Question 17

What may cause type 1 respiratory failure

Answer 17

Lobar pneumonia

Question 18

What is type 2 respiratory failure

Answer 18

When there is both low oxygen and high carbon dioxide.

Question 19

What may cause type 2 respiratory failure

Answer 19

A drug overdose.

Question 20

What is acidaemia

Answer 20

When there is a high concentration of H+ ions in the blood.

Question 21

What are the two types of acidaemia

Answer 21

Respiratory acidaemia and metabolic acidaemia

Question 22

What happens in respiratory acidaemia

Answer 22

There is a respiratory failure so less carbon dioxide is being exhaled and therefore there is more carbon dioxide in the blood.

Question 23

What happens in metabolic acidaemia

Answer 23

There is an increase in the production of acid or a decrease in the excretion of acid.

Question 24

What happens to bicarbonate in respiratory acidaemia

Answer 24

There is increased bicarbonate as there is increased carbon dioxide in the blood.

Question 25

What happens to bicarbonate in metabolic acidaemia

Answer 25

There is decreased bicarbonate as there is increased production of acid or reduced excretion of acid.

Question 26

What is the formula linking carbon dioxide, bicarbonate and acid

Answer 26

CO2 + H20 –> H2CO3

H2CO3 –> H+ + HCO3-

Question 27

Why is standard bicarbonate used

Answer 27

This is used as it is influenced only by metabolic effects so can help to determine if there is a metabolic component

Question 28

How is standard bicarbonate calculated

Answer 28

Using the actual H+ value and a PCO2 of 5.3kPa (Normal PCO2)

Question 29

How is actual bicarbonate calculated

Answer 29

Using actual H+ and PCO2 values.

Question 30

What does it mean if the standard bicarbonate is normal

Answer 30

Any acidaemia is solely respiratory

Question 31

Which component - respiratory or metabolic - does base excess give information regarding

Answer 31

The metabolic component.

Question 32

What is base excess

Answer 32

Base excess is the amount of base needed to be removed from a litre of blood at a normal PCO2 to bring the H+ back to normal.

Question 33

What is the normal value of base excess

Answer 33

0 (-2 to 2 is the normal range)

Question 34

What does it mean if the base excess value is positive

Answer 34

Metabolic alkalosis

Question 35

What does it mean if the base excess value is negative

Answer 35

Metabolic acidosis.

Question 36

what does it mean if the base excess and standard bicarbonate is normal but there is a high concentration of H+ ions.

Answer 36

Acidaemia is purely respiratory

Question 37

What is the metabolic compensation for respiratory acidaemia

Answer 37

The kidney retains HCO3 as metabolic compensation so the H+ returns towards a normal level.

Question 38

How can you tell from arterial blood gas measurement that there is respiratory failure

Answer 38

If the PO2 is low given the inspired oxygen.

Question 39

Other than drug overdose, what else can type 2 respiratory failure be a result of

Answer 39

A chest wall abnormality, scoliosis, asthma, muscular dystrophy

Question 40

How do you know an acidaemia is at least partly respiratory

Answer 40

If pCO2 is high

Question 41

How do you know if an acidaemia is at least partly metabolic

Answer 41

If the standard bicarbonate is low or the base excess is more negative than -2moll-1.

Question 42

What is the pKa

Answer 42

The half titration point of any buffer

Question 43

What does a high pKa mean

Answer 43

There is a strong base in the buffer

Question 44

What does a low pKa mean

Answer 44

There is a strong acid in the buffer

Question 45

When you are titrating an amino acid which group will have a low pKa

Answer 45

The COOH group will have a low pKa as it is more acidic.

Question 46

When you are titrating an amino acid which group will have a high pKa

Answer 46

The NH2 group will have a high pKa as it is more basic.

Question 47

What happens to an amino acid as the pH increases

Answer 47

More H+ ions are pulled off the structure and the molecule becomes more negative.

Question 48

When do buffers work best

Answer 48

When the acid is half ionised. This is when it is at its pKa value.

Question 49

What is the isoelectric point of a protein

Answer 49

The pH value at which the net charge of the protein is 0.

Question 50

Why is the bicarbonate buffer system of the body important

Answer 50

Because there is lots of bicarbonate in the plasma and this is under dynamic management by the body through the lungs and the kidney.

Question 51

Why is CO3^2- negligible

Answer 51

Because there is no significant concentration of this in the body.

Question 52

What is the Bohr effect

Answer 52

Oxyhaemoglobin is a stronger acid than deoxyhaemoglobin.

Question 53

What is the metabolic compensatory response to respiratory acidaemia

Answer 53

In respiratory acidaemia there is high CO2. This is compensated by an increase in bicarbonate by the metabolic system.

Question 54

What is the metabolic response to respiratory alkalaemia

Answer 54

In respiratory alkalaemia there is low CO2. This is compensated by a decrease in bicarbonate by the metabolic system.

Question 55

What does if mean if the parameters (carbon dioxide and bicarbonate) change in the same direction (both increase or both decrease)

Answer 55

There is a compensatory response to either a respiratory or metabolic problem. One parameter has changed in response to the other.

Question 56

What does it mean if only one parameter (CO2 or bicarbonate) has changed

Answer 56

There is no compensation.

Question 57

What does it mean if the parameters (CO2 and bicarbonate) change in different directions (one increases while the other decreases)

Answer 57

If both parameters have changed in opposite directions this means there are abnormalities both in the respiratory and metabolic systems - one is not compensating for the other.