This tutorial looks at the assessment of PaCO2 on the blood gas and how it interfaces with the pH and the Bicarbonate (HCO3-). The control of PaCO2 is a major physiological mechanism for maintaining homeostasis. CO2 production by the body must be balanced by CO2 elimination. PaCO2 rises when there is hypoventilation, this results in a fall in pH and an rise in HCO3 and this is called “Acute Respiratory Acidosis.” If the patient hyperventilates, the PaCO2 and the HCO3 fall and the pH rises: this is “Acute Respiratory Alkalosis.” When there is chronic CO2 retention, the body adapts by wasting Chloride in the urine, the pH normalizes and the HCO3 rises substantially.

Any patient who is intubated, or who has a laryngeal mask in situ, must undergo end tidal (end of exhalation) CO2 monitoring. The capnography waveform is worth evaluating, particularly if airway obstruction or increased resistance is suspected.

Included in this tutorial are various rules of thumb that you can use to determine the Respiratory Acid Base Status of the Patient – including the “Rule of 40.”