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
- 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
- Guillain-Barre syndrome
- Myasthenia gravis
- Brainstem or spinal cord injury
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
- Bronchodilators
- CPAP
- Intubation (esp of pH < 7.25)
- Do not reduce pH too quickly (>5Hg/h)
- Can lead to abrupt Hypocalcemia/Hypokalemia
- Do not reduce pH too quickly (>5Hg/h)