As part of my fundamentals of Anesthesiology and Critical Care Series I have posted 3 tutorials on the Role of CO2 /HCO3 in Acid Base Balance. These are entirely new tutorials (not part of the previous acid base series – that I have not finished yet! There is some overlap and updated facts and figures) and I have put a lot of work into getting the message of why the respiratory system is so important in acid base. Tutorial 1 is the basics of acid base. Tutorial 2 discusses respiratory acidosis, acute and chronic, and respiratory alkalosis. Tutorial 3 discusses respiratory compensation for acute metabolic acidosis. Although I cover the respiratory component in great depth, I also explain what metabolic acidosis is, what causes it and briefly discuss the anion gap, expected bicarbonate, base deficit and base deficit gap. I guarantee that you will learn something.
This is an opinion piece – a rant if you like about the perceptions and understanding of most healthcare professionals regarding the status of Lactate and Lactic Acidosis. It seems to me that everyone has an opinion on Lactic Acidosis, in my own opinion – they are often misinformed. The bottom line is that the body manufactures and processes vast quantities of Lactate each day and that accumulation of Lactate in the blood – Lactic Acidosis – is a sign of acute illness and multifactorial in origin. The Lactate is not the problem. The Lactate will eventually be processed by the liver and kidneys. You need to identify the underlying problem and control the source. Moreover, as Lactate is a signalling molecule and part of a multi-system process for energy transmission (the “Lactate Shuttle”), particularly when there is a lot of white blood cell activity, a raised lactate late in critical illness is frequently a sign of tissue healing, rather than acute inflammation. The biggest problem that I encounter, on a daily basis is the binary belief that hyperlactatemia means global oxygen debt. Certainly it is associated with hypovolemia (which can be identified by capillary refill time and mixed venous oxygen saturation) but more often it is associated with increased catecholamines associated with the stress response. If you are playing lactate-fluid “whack a mole” – each blood sample leads to a fluid bolus, your patient will become fluid overloaded very quickly. The latter is strongly associated with worse outcomes in critical illness.
I make the following points in this tutorial.
Most clinicians overestimate their knowledge of lactate and consider it a waste product of aerobic metabolism. Lactate is likely the end product of glycolysis and a major fuel source for the body. Lactate is always an Arrhenius acid in the body. Lactate is not a good endpoint of resuscitation (“clearance”). Using Lactate “clearance” as an endpoint usually results in excessive fluid resuscitation. High Lactate and Low Glucose is an Ominous Sign. Nobody can be really sure what is in a bag of Hartmann’s Solution (Ringers Lactate). D-Lactate is likely more harmful than you think. There is no specific treatment for Lactic Acidosis.
ORtoICU 