This is the first tutorial in a new series on acid base balance. This is not a beginners course – although I will attempt to cover everything the bedside clinician should know, particularly in the ICU. I have been teaching and writing about acid base for more than 25 years and I find it disappointing how many clinicians fail to understand even the basics of physical chemistry that underpin this topic.

This course is built on the foundation of physical and electrochemistry (all acid base reactions occur in water, all ionizing processes must be accounted for electrical neutrality must always hold.

The first tutorial is titled “The Power of Hydrogen” and it looks at the chemistry of water, the tendency for water to dissociate into moieties that display hydrogen ions and hydroxyl ions, and how temperature impacts that dissociation equilibrium. It is imperative that you understand that there are effectively no free protons (hydrogen ions) in the extracellular fluid. When we measure [H+] or its corollary, pH, we are measuring hydrogen ion ACTIVITY not hydrogen ion concentration. I explain the origin of pH and how pH varies with temperature despite the aqueous solution remaining chemically neutral. I explain the history of acid base, starting with O’Shaughnessy and then moving on to Arrhenius and Bronsted and Lowry. It is easier to understand acid base if one utilizes the Arrhenius theory, but the concepts are fully consistent with the BL approach, because water is amphiprotic (it can act as a “proton donor” or “proton acceptor.”

I explain how blood gas machines measure pH and why pH (and PCO2) should almost always be measured at 37 degrees Celsius. At the end of the tutorial I explain the terms acidosis and alkalosis, respiratory and metabolic. @ccmtutorials http://www.ccmtutorials.org