📊 Pulmonary Function Test Interpretation A Stepwise Guide for Medical Students · Spirometry, Volumes & DLCO
1. Why PFTs? Indications & Components
- Evaluate dyspnea, cough, or wheezing of unknown etiology.
- Diagnose and classify obstructive vs. restrictive lung disease.
- Assess severity and monitor disease progression (COPD, ILD).
- Preoperative risk assessment (especially thoracic surgery).
- Evaluate response to therapy (bronchodilators, antifibrotics).
- Disability / impairment evaluation.
Components Spirometry (FEV₁, FVC, FEV₁/FVC), Lung Volumes (TLC, RV, FRC), Diffusing Capacity (DLCO), Bronchodilator Response, Flow‑Volume Loops.
2. Spirometry: Core Measurements & Interpretation
Key Definitions
| Parameter | Definition | Normal Value |
| FVC (Forced Vital Capacity) | Total volume exhaled forcefully after maximal inspiration | ≥80% predicted |
| FEV₁ (Forced Expiratory Volume in 1 sec) | Volume exhaled in first second of FVC maneuver | ≥80% predicted |
| FEV₁/FVC Ratio | Proportion of FVC exhaled in first second | ≥0.70 (or >LLN) |
| FEF 25–75% | Average flow during middle half of FVC; reflects small airways | ≥60% predicted |
| PEF (Peak Expiratory Flow) | Maximal expiratory flow; effort‑dependent | Wide variability |
Step 1: Is it Obstructive or Restrictive?
🔴 Obstructive Pattern
- FEV₁/FVC < 0.70 (or below lower limit of normal, LLN)
- ↓ FEV₁ (proportional to severity)
- FVC normal or mildly reduced
- Examples: COPD, Asthma, Bronchiectasis
🔵 Restrictive Pattern
- FEV₁/FVC ≥ 0.70 (normal or elevated)
- ↓ FVC (<80% predicted)
- ↓ FEV₁ (proportional to FVC)
- Examples: ILD, Obesity, Neuromuscular disease, Pleural disease
⚠️ Important: Spirometry alone cannot diagnose restriction. Reduced FVC may be due to air trapping (obstructive) or true restriction. Lung volume measurement (TLC) is required to confirm restriction.
Step 2: Severity Classification (Obstructive) — GOLD Criteria for COPD
| GOLD Stage | FEV₁ (% predicted) | Severity |
| GOLD 1 | ≥80% | Mild |
| GOLD 2 | 50–79% | Moderate |
| GOLD 3 | 30–49% | Severe |
| GOLD 4 | <30% | Very Severe |
For Restrictive Disease: Severity based on TLC % predicted (mild 70–80%, moderate 60–69%, severe <60%).
3. Bronchodilator Response (Reversibility Testing)
- Perform spirometry before and 15–20 minutes after inhaled short‑acting bronchodilator (e.g., albuterol 400 μg).
- Significant response: ≥12% and ≥200 mL increase in FEV₁ or FVC.
- Positive response suggests asthma (though not diagnostic; some COPD patients also show reversibility).
- Absence of acute reversibility does not rule out asthma (may require longer treatment trial).
4. Lung Volumes: Confirming Restriction & Hyperinflation
Measured by body plethysmography (gold standard) or helium dilution / nitrogen washout. Spirometry cannot measure residual volume (RV).
| Volume / Capacity | Definition | Obstructive | Restrictive |
| TLC (Total Lung Capacity) | Volume at maximal inspiration | ↑ (hyperinflation) | ↓ (<80% predicted) |
| RV (Residual Volume) | Volume after maximal exhalation | ↑↑ (air trapping) | ↓ or normal |
| FRC (Functional Residual Capacity) | Volume at end of quiet exhalation (RV + ERV) | ↑ | ↓ |
| RV/TLC Ratio | Fraction of TLC that is residual volume | ↑ (>40%) | Normal or ↑ |
| VC (Vital Capacity) | TLC − RV | ↓ or normal | ↓ |
💡 Obstructive: TLC ↑, RV ↑↑, FRC ↑. Restrictive: TLC ↓, RV ↓/N, FRC ↓.
5. Diffusing Capacity (DLCO)
- Measures gas transfer across alveolar‑capillary membrane using carbon monoxide (CO).
- Normal DLCO: ≥75% predicted (adjust for hemoglobin and carboxyhemoglobin).
| DLCO | Mechanism | Clinical Examples |
| Decreased (↓) |
↓ Surface area, ↑ membrane thickness, pulmonary vascular disease |
Emphysema, IPF, ILD, PAH, Anemia (corrected value normal), Pneumonectomy |
| Increased (↑) |
↑ Pulmonary blood volume, alveolar hemorrhage |
Obesity, Asthma, Polycythemia, Early CHF, Alveolar hemorrhage (blood in alveoli binds CO), Left‑to‑right shunt |
| Normal |
Isolated airway disease without parenchymal destruction |
Chronic Bronchitis, Asthma (may be normal or ↑), Neuromuscular disease |
🔑 High‑Yield Distinction: In a patient with obstructive spirometry and low DLCO → Emphysema. Obstructive with normal/high DLCO → Asthma or Chronic Bronchitis.
6. Flow‑Volume Loops: Visual Patterns
The shape of the expiratory and inspiratory limbs provides critical diagnostic clues.
| Pattern | Appearance | Clinical Significance |
| Normal | Rapid rise to peak, linear descent | – |
| Obstructive | Scooped (concave) expiratory limb; may see reduced peak flow | COPD, Asthma (dynamic airway collapse) |
| Restrictive | Tall, narrow loop; reduced volumes but preserved flow relative to volume | ILD, Obesity, Chest wall restriction |
| Fixed Upper Airway Obstruction | Flattening of both inspiratory and expiratory limbs (box shape) | Tracheal stenosis, Goiter, Tumor |
| Variable Extrathoracic Obstruction | Flattening of inspiratory limb only | Vocal cord paralysis / dysfunction, Retrosternal goiter |
| Variable Intrathoracic Obstruction | Flattening of expiratory limb only | Tracheomalacia, Distal tracheal tumor |
💡 Extrathoracic = Inspiratory flattening; Intrathoracic = Expiratory flattening. (Think: Extra = In, Intra = Ex).
7. Classic PFT Patterns by Disease
| Condition | FEV₁/FVC | FEV₁ | FVC | TLC | RV | DLCO |
| Asthma | ↓ (or normal between exacerbations) | ↓ | ↓ or N | N or ↑ | N or ↑ | N or ↑ |
| Chronic Bronchitis | ↓ | ↓ | ↓ or N | N | N or ↑ | N or ↓ |
| Emphysema | ↓ | ↓↓ | ↓ | ↑↑ | ↑↑ | ↓↓ |
| Idiopathic Pulmonary Fibrosis (IPF) | N or ↑ | ↓ | ↓↓ | ↓↓ | ↓ or N | ↓↓ |
| Obesity | N | N or ↓ | ↓ | ↓ | N | N |
| Neuromuscular Disease | N | ↓ | ↓↓ | ↓ | ↑ (weak expiration) | N |
| Pulmonary Hypertension (PAH) | N or ↓ (mild) | N or ↓ | N or ↓ | N | N | ↓ (disproportionate to volumes) |
| Bronchiectasis | ↓ (often) | ↓ | ↓ or N | N or ↑ | ↑ | N or ↓ |
8. Additional PFT Components & Provocation Testing
Methacholine Challenge (Bronchoprovocation)
- Indicated when asthma is suspected but spirometry is normal.
- Patient inhales increasing doses of methacholine (muscarinic agonist) → induces bronchoconstriction.
- Positive test: ≥20% fall in FEV₁ from baseline at or before the maximum dose (PC₂₀).
- Contraindications: Severe airflow obstruction (FEV₁ <50%), uncontrolled hypertension, recent MI/stroke, pregnancy.
Maximal Voluntary Ventilation (MVV)
- Patient breathes as hard and fast as possible for 12–15 seconds. Estimates ventilatory reserve.
- Reduced in neuromuscular disease, poor effort, severe obstruction.
- Used in preoperative evaluation for lung resection (predicted postoperative FEV₁ and DLCO).
Respiratory Muscle Strength
- MIP (Maximal Inspiratory Pressure): Measures inspiratory muscle strength (diaphragm). Normal < -60 cm H₂O (more negative is stronger).
- MEP (Maximal Expiratory Pressure): Measures expiratory muscle strength (abdominals). Normal > +100 cm H₂O.
- Reduced in neuromuscular disorders (ALS, myasthenia gravis, Guillain‑Barré).
9. Stepwise PFT Interpretation Algorithm
- Check Quality: Acceptable and repeatable? (3 acceptable maneuvers, 2 reproducible).
- Look at FEV₁/FVC Ratio:
- <0.70 (or <LLN) → Obstructive pattern. Go to Step 3.
- ≥0.70 → Normal or Restrictive. Go to Step 4.
- If Obstructive:
- Assess severity by FEV₁ % predicted (GOLD 1–4).
- Check bronchodilator response (≥12% & 200 mL = significant reversibility).
- Check TLC: ↑ = hyperinflation; normal = simple obstruction.
- Check DLCO: ↓ = emphysema or parenchymal destruction; N/↑ = asthma / chronic bronchitis.
- If Normal Ratio (FEV₁/FVC ≥0.70):
- Check FVC: Normal → Normal PFTs (consider methacholine challenge if high suspicion).
- FVC <80% → Possible restriction. Must measure TLC.
- TLC <80% → Confirmed Restriction. TLC normal → Non‑restrictive pattern (e.g., poor effort, early obstruction with air trapping).
- If Restrictive: Check DLCO. ↓ DLCO → parenchymal disease (ILD). Normal DLCO → extrapulmonary restriction (obesity, neuromuscular, pleural).
10. Clinical Case Applications
Case 1: 65‑year‑old smoker with progressive dyspnea
PFTs: FEV₁ 45%, FVC 70%, FEV₁/FVC 0.50, TLC 130%, RV 180%, DLCO 40%.
- FEV₁/FVC 0.50 → Obstructive pattern.
- FEV₁ 45% → GOLD 3 (Severe).
- TLC ↑, RV ↑↑ → Hyperinflation with air trapping.
- DLCO ↓↓ → Significant parenchymal destruction.
- Diagnosis: Severe COPD with predominant emphysema.
Case 2: 50‑year‑old with progressive dyspnea and dry cough
PFTs: FEV₁ 62%, FVC 60%, FEV₁/FVC 0.82, TLC 65%, DLCO 45%.
- FEV₁/FVC 0.82 (normal) → Not obstructive.
- FVC 60% → Reduced. TLC 65% → Confirmed restriction.
- DLCO ↓↓ → Parenchymal process.
- Diagnosis: Restrictive lung disease with impaired gas exchange. Likely Idiopathic Pulmonary Fibrosis (IPF). HRCT needed.
Case 3: 40‑year‑old with episodic wheezing, normal spirometry today
PFTs: FEV₁ 92%, FVC 95%, FEV₁/FVC 0.80, TLC 100%, DLCO 105%.
- Normal spirometry and volumes.
- Suspicion for asthma → Methacholine challenge test.
- Positive challenge confirms airway hyperresponsiveness.
Case 4: 30‑year‑old with stridor and dyspnea on exertion
Flow‑Volume Loop: Flattening of both inspiratory and expiratory limbs. FEV₁ 70%, FVC 72%, FEV₁/FVC 0.78.
- Normal FEV₁/FVC but reduced flows with plateau on both limbs → Fixed upper airway obstruction.
- Likely tracheal stenosis (e.g., post‑intubation) or goiter. CT neck/chest indicated.
11. Predicted Values & Lower Limit of Normal (LLN)
- PFT values are compared to predicted values based on age, sex, height, and ethnicity (e.g., NHANES III, GLI).
- Lower Limit of Normal (LLN): 5th percentile of healthy population. More accurate than fixed ratio (0.70) for diagnosing obstruction in elderly or very young.
- Fixed Ratio (FEV₁/FVC <0.70): Simple but may overdiagnose COPD in elderly (normal aging reduces ratio) and underdiagnose in young adults.
- Always interpret PFTs in clinical context; borderline values require clinical correlation.
12. Quick Reference: PFT Patterns Summary
Obstructive
- FEV₁/FVC ↓
- TLC N or ↑
- RV ↑
- DLCO variable
Restrictive
- FEV₁/FVC N or ↑
- TLC ↓
- RV ↓ or N
- DLCO variable
Mixed
- FEV₁/FVC ↓
- TLC ↓
- RV variable
- Examples: Sarcoidosis, combined COPD‑ILD
Nonspecific
- FEV₁/FVC N
- TLC N
- FVC N or mildly ↓
- Often due to poor effort or early disease