Respiratory acidosis

see also hypercapnia

Background

  • Acidemia = pH < 7.35
  • Respiratory acidosis = PaCO2 > 42
  • Acute respiratory acidosis: Change in pH = 0.008 X (40 - PaCO2)
    • For every 10 mmHg increase in PaCO2, HCO3- should increase by 1 mEq/L
  • Chronic respiratory acidosis: Change in pH = 0.003 X (40 - PaCO2)
    • For every 10 mmHg increase in PaCO2, HCO3- should increase by 4 mEq/L
  • Determine if another primary acid/base disturbance is occurring
    • Calculate AG
    • if HCO3- < 24 + (pCO2-40)/10 x 3(+/-1) then there is a superimposed primary metabolic acidosis
      • for every 10mm increase in pCO2 >40, HCO3expected increases by 2-4mEq (2 if acute/limited time for metabolic compensation, 4 if chronic i.e. COPD)
    • if HCO3- > 24 + (pCO2-40)/10 x 3(+/-1) then suspect primary metabolic alkalosis

Etiology

  • Hypoventilation - acute vs chronic

Differential Diagnosis

  • Respiratory disorders
    • COPD
    • Pneumonia
    • ARDS
    • Pulmonary edema
    • Pulmonary fibrosis
    • Trauma
  • Central respiratory depression
    • Central sleep apnea
    • Drug overdose (opiates, benzodiazepines)
    • Trauma
    • Stroke
    • Status epilepticus
  • Airway obstruction
    • Obstruction sleep apnea
    • Foreign body aspiration
    • Tumor
    • Bronchospasm
  • Neuromuscular dysfunction

Evaluation

  • Obtain ABG or VBG to determine severity as well as if acute or chronic
  • Re-evaluate 20-30 minutes after airway intervention (placement on BiPAP, intubation, etc.)

Management

Improve alveolar ventilation

  1. Bronchodilators
  2. CPAP
  3. Intubation (esp of pH < 7.25)

See Also

References