ABG Interpretation

Metabolic Acidosis Explained

Metabolic acidosis is an acid-base disorder caused by a primary decrease in bicarbonate. For respiratory therapy students, the key pattern is a low pH with a low HCO₃. The lungs may compensate by increasing ventilation to lower PaCO₂.

Primary problem
Low HCO₃

Expected pH
Low / acidotic

Compensation
PaCO₂ may decrease

Core Metabolic Acidosis Pattern

Metabolic acidosis occurs when bicarbonate is low enough to push the pH below normal. Since HCO₃ is the metabolic component, the disorder is metabolic when pH and HCO₃ move in the same direction.

pH:
Low, below 7.35

HCO₃:
Low, below 22 mEq/L

PaCO₂:
May be low if respiratory compensation is present

Memory cue:
pH and HCO₃ move in the same direction

Normal Values to Know

ABG Value	Normal Range	Role
pH	7.35–7.45	Determines acidotic, alkalotic, or normal status.
PaCO₂	35–45 mmHg	Respiratory component.
HCO₃	22–26 mEq/L	Metabolic component.
PaO₂	80–100 mmHg	Oxygenation status.

How Compensation Works

In metabolic acidosis, the respiratory system attempts to compensate by increasing ventilation. This blows off CO₂, which helps move the pH back toward normal.

Metabolic acidosis → low HCO₃ → low pH → increased ventilation → lower PaCO₂

No compensation:
HCO₃ is low, pH is low, and PaCO₂ remains normal.

Partial compensation:
HCO₃ is low, pH is still low, and PaCO₂ is also low.

Full compensation:
HCO₃ and PaCO₂ are abnormal, but pH has returned to normal.

Mixed disorder warning:
If PaCO₂ moves the wrong way or does not fit the picture, consider a mixed disorder.

Common Causes of Metabolic Acidosis

Metabolic acidosis often occurs when the body gains acid, loses bicarbonate, or cannot clear acid effectively.

Cause	Why It Causes Acidosis	RT Clinical Connection
Diabetic ketoacidosis	Ketone production increases acid load.	May cause deep, rapid Kussmaul respirations.
Lactic acidosis	Poor perfusion or hypoxia increases lactate.	Look for shock, sepsis, hypoxemia, or severe work of breathing.
Renal failure	Kidneys cannot excrete acid effectively.	May coexist with fluid overload or pulmonary edema.
Diarrhea	Bicarbonate is lost through the GI tract.	Assess dehydration, perfusion, and respiratory compensation.
Toxin ingestion	Some toxins create acid metabolites.	Requires urgent team escalation and monitoring.

Example ABG

pH 7.29
PaCO₂ 30 mmHg
HCO₃ 14 mEq/L
PaO₂ 92 mmHg

Step 1: pH is low, so the patient is acidotic.

Step 2: HCO₃ is low and matches the low pH, so the primary disorder is metabolic acidosis.

Step 3: PaCO₂ is low, showing respiratory compensation. Since pH is still abnormal, this is partial compensation.

Step 4: PaO₂ is normal.

Complete interpretation:
Partially compensated metabolic acidosis with normal oxygenation.

Common Student Mistakes

Calling it respiratory because PaCO₂ is abnormal
PaCO₂ may be abnormal because it is compensating.

Ignoring the bicarbonate
The low HCO₃ is the primary metabolic clue.

Forgetting oxygenation
Always assess PaO₂ separately after acid-base status.

Missing mixed disorders
If both PaCO₂ and HCO₃ are pushing pH in the same direction, think mixed disorder.

Practice ABGs

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