Teaching Medicine - Tutorial: Blood Gases 1

Blood Gases

Level 1

Tutorial: Blood Gases 1

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Tutorial: Blood Gases 1

Learn an organized approach to arterial blood gas analysis, incorporating serum and urine electrolyte values into your more advanced levels of analysis.

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Tutorial: Blood Gases 1 Compensatory Processes

Lessons

Times Practiced

1284

Cases Completed

1h 24m

Total Time spent

1m 24s

Average Time

Progress

Accuracy

Efficiency

Accuracy

Efficiency

	1	Acidosis or Alkalosis Acidosis or Alkalosis
	2	Shifting chemistry Shifting chemistry
	3	Metabolic or Respiratory Metabolic or Respiratory
	4	Compensatory Processes Compensatory Processes
	5	Degree of Compensation Degree of Compensation
	6	Abnormal Compensation Abnormal Compensation
	7	Anion Gap Mechanism Anion Gap Mechanism
	8	The Delta Delta and Acid Base Ddx The Delta Delta and Acid Base Ddx
	9	Summary of Approach to ABGs Summary of Approach to ABGs

Compensatory Processes

Your body likes to have a normal pH (can you blame it?). Therefore, when one abnormal mechanism starts to push the pH into the abnormal range of either acidosis or alkalosis, a second process will become engaged and try to push the pH back toward a normal value. This mechanism is called secondary compensation. This is normal.

Rule #1: the compensation is ALWAYS in the opposite "pH direction."

if you have a primary acidosis problem, the compensatory mechanism will be make the pH more alkalotic
if you have a primary alkalosis problem, the compensatory mechanism will make the pH more acidotic

Rule #2: the compensation is ALWAYS the opposite mechanism as the primary disturbance.

if the primary disturbance is respiratory, the secondary compensatory mechanism must be metabolic
if the primary disturbance is metabolic, the secondary compensatory mechanism must be respiratory

Rule #3: The compensation process never over-corrects the pH.

if the primary disturbance is acidosis, the pH will always be < 7.40 after compensation
If the primary disturbance is alkalosis, the pH will always be > 7.40 after compensation

Rule #4: If Rule #1 is violated, then the patient has a mixed primary disturbance.

if there is a metabolic acidosis and a respiratory acidosis, then both processes are primary
if there is a metabolic alkalosis and a respiratory alkalosis, then both processes are primary
this is called a mixed acid base disturbance

Respiratory compensation starts within 30 minutes and is maximal within a few hours. Metabolic compensation takes about 3-5 days for maximal compensation. Kidneys are a little slower than lungs to make changes.

So how do you go about determining if a compensatory process is occurring? You need to go through these steps in this order:

Step 1: look at the pH. What is the acid/base disturbance?
Step 2: look at the bicarb and the pCO₂. Which element is driving the pH?
Step 3: is there an "opposite process" to the primary process occurring?

This is how you answer the question for step 3 (there are 4 scenarios):

if you identify a primary respiratory acidosis (high pCO₂) then you would expect a compensatory higher bicarb
if you identify a primary respiratory alkalosis (low pCO₂) then you would expect a compensatory lower bicarb
if you identify a primary metabolic acidosis (low bicarb) then you would expect a compensatory lower pCO₂
if you identify a primary metabolic alkalosis (high bicarb) then you would expect a compensatory higher pCO₂

Notice the very predictable pattern? I probably did not have to outline all 4 scenarios for you; you could have predicted them yourself because you are brilliant.