Acid-base data interpretation has always been one of the more difficult areas of laboratory medicine. In most uncomplicated untreated cases the diagnosis can be achieved with reasonable ease. There are several ways of approaching an acid-base problem. One way is to examine first the arterial PCO2 value. Since primary respiratory disorders result from hypoventilation or hyperventilation, which, in turn, are reflected by a change in arterial PCO2, normal PCO2 with abnormal pH is strong evidence against a primary respiratory disorder and should be an uncompensated metabolic disorder.

If PCO2 is decreased, there are two major possibilities:

1. The primary disorder could be respiratory alkalosis (hyperventilation). If so, pH should be increased in acute (uncompensated) cases or partially compensated cases. In fully compensated cases pH is within reference range, but frequently it is more than 7.40 even within the reference range.

2. The primary disorder could be metabolic acidosis. If so, pH should be decreased in partially compensated cases. In fully compensated cases pH is within its reference range (similar to fully compensated respiratory alkalosis), but frequently it is less than 7.40 even within the reference range.

If PCO2 is increased, there are also two major possibilities:

1. The primary disorder could be respiratory acidosis (hypoventilation). If so, pH should be decreased in acute (uncompensated) cases or partially compensated cases. In fully compensated cases pH is within reference range, but frequently it is less than 7.40 even within reference range.

2. The primary disorder could be metabolic alkalosis. If so, pH should be increased in partially compensated cases. In fully compensated cases pH is within its reference range (similar to fully compensated respiratory acidosis), but pH frequently is more than 7.40 even within the reference range.

There is another way to interpret the data. If one first inspects pH, decreased pH means acidosis and increased pH means alkalosis. One then inspects the PCO2 value. If the PCO2 has changed in the same direction as the pH, the primary disorder is metabolic. If the PCO2 has changed in the opposite direction from that of the pH, the primary disorder is respiratory.

Base excess analysis is not a vital part of this type of algorithm. However, base excess can sometimes be helpful, both as additional evidence for certain types of acid-base disorders or to help detect the presence of active acid-base disorder in fully compensated cases. A negative base excess is found in metabolic acidosis and, to a lesser extent, in respiratory alkalosis. A positive base excess is found in metabolic alkalosis and, to a lesser extent, in respiratory acidosis.