STEP 1 — Read the ABG
You will see:
pH / pCO₂ / pO₂ / HCO₃ / O₂ Sat
Example:
7.28 / 60 / 70 / 26
STEP 2 — Determine Acidemia or Alkalemia
-
pH < 7.35 → acidemia
-
pH > 7.45 → alkalemia
STEP 3 — Determine Primary Disorder
Respiratory component
-
High CO₂ → respiratory acidosis
-
Low CO₂ → respiratory alkalosis
Metabolic component
-
Low HCO₃ → metabolic acidosis
-
High HCO₃ → metabolic alkalosis
###Whichever direction matches the pH change = primary process.
Example:
pH 7.28 (acidemia)
CO₂ 60 (high = respiratory acid)
→ Primary respiratory acidosis
STEP 4 — Check Compensation
A. Metabolic Acidosis (Use Winter’s Formula)
Expected CO₂ = 1.5 × HCO₃ + 8 (±2)
-
CO₂ matches → appropriate
-
CO₂ higher → mixed resp + metabolic acidosis
-
CO₂ lower → mixed metabolic acidosis + resp alkalosis
B. Metabolic Alkalosis
Expected CO₂ = HCO₃ + 15 (±2)
C. Respiratory Disorders
Acute Respiratory Acidosis:
-
HCO₃ ↑ by 1 for every 10 ↑ in CO₂
Chronic Respiratory Acidosis:
-
HCO₃ ↑ by 3–4 for every 10 ↑ in CO₂
Acute Respiratory Alkalosis:
-
HCO₃ ↓ by 2 for every 10 ↓ in CO₂
Chronic Respiratory Alkalosis:
-
HCO₃ ↓ by 4–5 for every 10 ↓ in CO₂
STEP 5 — Evaluate Oxygenation
A-a Gradient
Tells you if hypoxia is:
-
V/Q mismatch
-
Shunt
-
Diffusion defect
-
Alveolar hypoventilation
A-a gradient = PAO₂ – PaO₂
PAO₂ = FiO₂ × (713) – (pCO₂ / 0.8)
(Normal A-a: 5–15 + age/4)
PF Ratio (Very Important in ICU)
PF ratio = PaO₂ / FiO₂
Used in ARDS classification:
| ARDS Severity | PF Ratio |
|---|---|
| Mild | 200–300 |
| Moderate | 100–200 |
| Severe | < 100 |
STEP 6 — Think Physiologically
Align ABG with clinical picture and ventilator settings.
If hypercapnic (high CO₂):
-
Inadequate minute ventilation → adjust respiratory rate or tidal volume
-
Obstruction? COPD flare? Asthma?
If hypoxemic (low PaO₂):
-
Increase FiO₂
-
Increase PEEP
-
Evaluate lung pathology (pneumonia? ARDS? fluid overload?)
If metabolic acidosis:
-
Check anion gap
-
Start treating cause (sepsis, renal failure, DKA, lactate)
Comment 0
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