This is Tutorial 2 in the Series on Acid Base: The FIzz of CO2.

Carbon Dioxide is a gas that is produced by the mitochodria and passes through the cell membrane into the extracellular fluid and blood. There it dissolves, attaches to hemoglobin or, under the influence of carbonic anhydrase, hydrates with water to generate carbonic acid – which rapidly dissociates to release hydrogen (bound to hemoglobin) and bicarbonate. Carbon Dioxide obeys Dalton’s law and Henry’s law. The latter determines that the PCO2 is directly proportionate to the CO2 content. Carbon Dioxide becomes more soluble in the blood as temperature falls. Hence measuring gaseous CO2 requires the blood gas machine to be set at 37 degrees.

The body produces, at rest, 200ml per minute of CO2. The body excretes 200ml per minute of CO2. As metabolism increases, respiratory excretion of CO2 increases. This results in a PaCO2 of 40mmHg or 5.1kPa. There is a 3-4mmHg or 0.5kPa difference between the PaCO2 and the etCO2. Because the body exists, usually, is steady state, the etCO2 can be used to estimate the PaCO2 (most of the time). In apnea, the PaCO2 rises rapidly – it doubles in 8 minutes.

When PaCO2 rises, [HCO3-] rises also – and in a very predictable way. So, when a patient develops acute respiratory failure, or underventilates (for example under anesthesia), pH falls, predictably, the PaCO2 rises, predictably and the Bicarbonate rises, predictably. This is acute respiratory acidosis – and in this tutorial I will explain how and why this occurs.

It is imperative to understand that CO2 and [HCO3-] are different versions of the same thing in the body and the rise in bicarbonate in respiratory disorders is not some form of “compensation” it is physiology. Indeed in chronic respiratory failure, the increase in respiratory acids (Chronic respiratory acidosis) is counterbalanced by a fall in the plasma Chloride levels. Acute respiratory alkalosis is associated with pain, anxiety, agitation or over ventilation and is associated with a modest fall in Bicarbonate.

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