For each item A–E related to oxygen transport, select the most appropriate option from the list below:

A. Option 4 Percentage saturation. Regardless of the haemoglobin content, the oxygen content of blood at a given oxygen pressure will always be very similar, expressed as a percentage of the capacity. The very slight differences are due to the fact that in severe anaemia the amount of dissolved oxygen relative to oxygen combined with haemoglobin is slightly greater since there is a higher proportion of plasma.

B. Option 3 Oxygen in solution. Only dissolved gases can pass through the tissue fluids.

C. Option 6 Shift of the curve to the right. When the oxygen dissociation curve of blood shifts to the right on the x axis, the oxygen content of blood at a given oxygen pressure shifts downwards on the y axis. Thus the blood retains less oxygen and more is released to the tissues.

D. Option 1 Sigmoid. Sigmoid means S-shaped. The first bend of the S is produced by the increasing affinity of haemoglobin for oxygen; at low pressures the curve becomes increasingly steep and then straightens to a steep fairly linear rise. The second bend is produced as full saturation is approached and the steep rise curves to join the plateau.

E. Option 3 Dissolved oxygen. As the partial pressure of oxygen increases above the normal alveolar value, the content rises very gradually as the dissolved oxygen increases in proportion to the pressure. In hyperbaric oxygen conditions this dissolved amount can be significant. For example if 3 ml are dissolved per litre when PO2 is 100 mmHg (13.5 kPa), then at two atmospheres of oxygen, with a PO2 around 1500 mmHg (200 kPa), the dissolved oxygen amounts to 45 ml/litre. This can be helpful when haemoglobin has been disabled by combination with carbon monoxide.