Reference — Respiratory

Respiratory Failure Reference

Respiratory failure occurs when the respiratory system can no longer maintain adequate gas exchange. It is classified as Type I (hypoxemic — oxygenation failure) or Type II (hypercapnic — ventilation failure), each with distinct causes, ABG patterns, and treatment priorities.

Educational use only. Diagnosis of respiratory failure requires provider evaluation, ABG analysis, and clinical context. This reference supports NCLEX preparation and learning — it does not replace clinical assessment or medical decision-making. This material supports nursing education and exam review. It is not medical advice and is not a substitute for clinical judgment, institutional policy, or medical direction. Always follow facility protocols and current provider orders.

Type I — Hypoxemic Respiratory Failure

Definition: PaO₂ <60 mmHg on room air (or SpO₂ <90%) — oxygenation failure

Type I respiratory failure is a failure of oxygenation. The lungs are unable to transfer adequate oxygen from the alveoli into the bloodstream. CO₂ removal is typically normal or may be low (hyperventilating to compensate).

MechanismV/Q mismatch, intrapulmonary shunt, diffusion impairment, alveolar hypoventilation limited to affected segments

ABG PatternLow PaO₂ (<60 mmHg); PaCO₂ normal or low; pH normal or elevated (respiratory alkalosis from compensatory hyperventilation)

Common Causes

ARDS — most severe form; bilateral diffuse alveolar damage
Pneumonia — consolidation blocks O₂ exchange in affected segments
Pulmonary edema (cardiogenic or non-cardiogenic)
Pulmonary embolism — dead space lesion with V/Q mismatch
Pneumothorax — lung collapse eliminates ventilation-perfusion
Pulmonary fibrosis / interstitial lung disease

Type II — Hypercapnic (Ventilatory) Respiratory Failure

Definition: PaCO₂ >45 mmHg + pH <7.35 — ventilation failure

Type II respiratory failure is a failure of ventilation. The patient cannot move adequate volumes of air to eliminate CO₂. CO₂ accumulates, causing respiratory acidosis. Hypoxemia is also present (from inadequate ventilation) but the primary problem is CO₂ retention.

MechanismDecreased respiratory drive, neuromuscular failure, or excessive dead space — inadequate minute ventilation (RR × Vt)

ABG PatternHigh PaCO₂ (>45 mmHg); low pH (<7.35 = acute); HCO₃ elevated if chronic (metabolic compensation); low PaO₂

Common Causes

COPD exacerbation — most common cause of acute-on-chronic Type II failure
Opioid/sedative overdose — suppressed central respiratory drive
Neuromuscular disease — Guillain-Barré, myasthenia gravis, ALS, C3-C5 spinal injury
Severe asthma with fatigue (progressing to Type II from initial Type I)
Chest wall deformity — kyphoscoliosis, flail chest
Obesity hypoventilation syndrome

Type I vs Type II at a Glance

Parameter	Type I (Hypoxemic)	Type II (Hypercapnic)
Primary failure	Oxygenation	Ventilation (CO₂ removal)
PaO₂	<60 mmHg	Low (secondary)
PaCO₂	Normal or low	>45 mmHg
pH	Normal or high (alkalosis)	<7.35 (acidosis) — acute; may be near normal if chronic
Response to O₂	Partial — high-flow O₂ improves SpO₂ (unless shunt)	Improves hypoxemia; does not fix CO₂ problem
Treatment priority	Optimize oxygenation — PEEP, recruitment, treat cause	Support ventilation — BiPAP, mechanical ventilation; treat cause

Nursing Implications

SpO₂ targets differ: Type I — target 94–98%. COPD/chronic Type II — target 88–92% to avoid blunting hypoxic drive.
O₂ delivery choice matters: Type I (shunt physiology in ARDS) — high FiO₂ alone may not resolve hypoxemia; PEEP is essential. Type II — improve ventilation, not just FiO₂.
BiPAP indication: Type II failure with acute respiratory acidosis (especially COPD) — BiPAP is first-line before intubation.
Escalation triggers: Worsening SpO₂ despite supplemental O₂; rising PaCO₂ and falling pH; altered mental status; increased work of breathing with fatigue signs → notify provider.
Monitor ABG trends: Single ABG is less informative than trending — watch for respiratory fatigue causing shift from Type I to Type II.
Opioid reversal: Type II from opioid overdose → naloxone as ordered; position upright; BVM ready; continuous monitoring.

NCLEX Pearls

›Type I = oxygenation failure (PaO₂ < 60). Type II = ventilation failure (PaCO₂ > 45 + acidosis).
›ARDS is the most severe form of Type I respiratory failure — characterized by bilateral infiltrates and refractory hypoxemia.
›COPD exacerbation is the most common cause of acute-on-chronic Type II failure.
›Oxygen alone does not fix Type II failure — the patient needs help moving air (BiPAP, ventilator).
›A worsening asthma patient can shift from Type I to Type II as muscles fatigue — rising PaCO₂ is an ominous sign.
›Normal PaCO₂ in an acutely distressed asthma patient who was initially hyperventilating (low PaCO₂) = impending fatigue.

Related Resources

Respiratory Failure Comparison ChartType I vs Type II — oxygenation, CO₂, and common causes

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ARDS FundamentalsBerlin criteria, lung-protective ventilation, prone positioning

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ABG Foundation GuideSystematic approach: pH, PaCO₂, HCO₃, oxygenation

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SpO₂, PaO₂, and SaO₂ ReferenceDefinitions, normal values, clinical differences

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Ventilator Modes ReferenceAC, SIMV, PSV, CPAP, BiPAP — descriptions and indications

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Oxygenation Measurements ChartSpO₂, PaO₂, and SaO₂ compared — source, normal values, and what each tells you

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Standards & sources

Fact-checked Jun 21, 2026

This page is written to align with American Association for Respiratory Care (AARC) · GOLD (COPD) / ATS / CHEST. It is an educational summary, not a citation of any single document — always verify specific doses, values, and protocols against current guidelines and your facility policy. How we source content →