Hypersensitivity pneumonitis

Background

  • Hypersensitivity pneumonitis (HP), formerly known as extrinsic allergic alveolitis, is an immune-mediated interstitial lung disease caused by an exaggerated inflammatory response to repeated inhalation of a sensitizing antigen in a susceptible host.[1] More than 300 causative antigens have been identified.[2] The disease exists on a spectrum from acute self-limiting inflammation to irreversible pulmonary fibrosis indistinguishable from idiopathic pulmonary fibrosis (IPF).
  • Antigen avoidance is the cornerstone of management[3] — the ED physician's most important role is to consider the diagnosis, obtain a thorough exposure history, and initiate appropriate workup.
  • Combination of type III (immune complex) and type IV (delayed-type/cell-mediated) hypersensitivity reactions[3]
  • Inflammation is bronchiolocentric — centered on the small airways due to the inhalational route of injury[3]
  • Pathologic hallmark: poorly formed, non-caseating granulomas with lymphocytic infiltration around bronchioles (distinct from sarcoidosis, which has well-formed granulomas along the bronchovascular bundle)[3]
  • Cigarette smoking is paradoxically protective — nicotine inhibits macrophage activation and lymphocyte proliferation; however, smokers who do develop HP tend to have more fibrotic disease[3]
  • Genetic susceptibility through MHC class II (HLA-DR and HLA-DQ) polymorphisms[3]
  • Incidence: ~1–2 per 100,000 person-years; accounts for 1.5–12% of all interstitial lung diseases[4]
  • Current classification (ATS/JRS/ALAT 2020): Two phenotypes replace the older acute/subacute/chronic terminology[1]
    • Non-fibrotic HP: Inflammatory, often reversible with antigen avoidance ± corticosteroids
    • Fibrotic HP: Established fibrosis present on imaging or biopsy; worse prognosis; may progress to end-stage lung disease
  • Common exposures and eponyms:
    • Farmer's lung — thermophilic Actinomycetes (Saccharopolyspora rectivirgula) in moldy hay, grain, straw; the prototype of HP[3]
    • Bird fancier's lung (pigeon breeder's disease) — avian proteins in droppings, feathers, serum; most common form of HP worldwide (66–68% of all cases); 5-year mortality ~30% (worse prognosis than farmer's lung due to persistent domestic antigen exposure)[5]
    • Hot tub lung — Mycobacterium avium complex (MAC) in aerosolized warm water; may represent true infection vs. HP (debated)[5]
    • Humidifier lung — Thermoactinomyces, Cladosporium in contaminated HVAC systems, humidifiers
    • Chemical worker's lung — isocyanates (toluene diisocyanate, MDI), zinc, nickel; low-molecular-weight haptens that form antigenic complexes with host proteins[4]
    • Others: Mushroom worker's lung, maple bark disease, malt worker's lung (Aspergillus clavatus), saxophone lung (Candida/Ulocladium in mouthpieces), metalworking fluid HP, cheese worker's lung
    • Feather bedding HP — indirect bird antigen exposure from down pillows and duvets; easily missed on history[3]
  • Farming, bird contact, and water contamination account for ~75% of cases[4]

Clinical Features

Acute/non-fibrotic HP (high-dose, intermittent exposure):

  • Symptoms begin 4–8 hours after antigen exposure (key historical clue)[3]
  • Fever, chills, malaise, myalgias, dry cough, dyspnea — often misdiagnosed as flu-like illness or pneumonia
  • Symptoms typically resolve within 1–2 days of avoiding exposure[3]
  • Recurrent stereotyped episodes temporally linked to a specific environment are highly suggestive
  • Exam: fever, tachypnea, bibasal fine inspiratory crackles; wheeze is uncommon[6]
  • Severe acute HP can cause life-threatening respiratory failure with cyanosis and respiratory distress at rest[6]

Chronic/fibrotic HP (low-dose, prolonged exposure):

  • Insidious onset of progressive dyspnea, chronic dry cough, fatigue, weight loss[3]
  • Often no history of acute episodes — the intermittent febrile response may be absent
  • No clear temporal link to exposure (antigen exposure may be continuous and low-level)
  • Exam: tachypnea, inspiratory crackles (particularly bibasal), clubbing in up to 50% of chronic cases[7]
  • Late findings: cyanosis, signs of pulmonary hypertension and right heart failure
  • May be clinically and radiologically indistinguishable from IPF[1]

Key history questions for the ED:

  • Occupation (farming, bird handling, factory work, metalworking, brewing, woodworking)
  • Hobbies (bird keeping, pigeon racing, hot tub use, gardening/composting)
  • Home environment (feather bedding/pillows, visible mold, water damage, humidifiers, HVAC maintenance, pet birds, indoor hot tub)
  • Timing of symptoms relative to specific environments — do symptoms improve on weekends, vacations, or hospitalizations?
  • New exposures (recently acquired birds, new home, new workplace, CPAP/BiPAP equipment)

Differential Diagnosis

Acute HP differential:

  • Pneumonia (community-acquired — the most common initial misdiagnosis)
  • Influenza and other viral respiratory infections
  • Organic dust toxic syndrome (ODTS) — the critical ED differential; occurs after heavy organic dust exposure with identical flu-like symptoms; differs from HP because: (1) CXR is normal (no infiltrates), (2) severe hypoxemia does not occur, (3) no prior sensitization required (can occur on first exposure), (4) no long-term sequelae; ODTS is 30–50 times more common than farmer's lung[8]
  • Metal fume fever (zinc, copper exposure — similar flu-like presentation hours after exposure)
  • Inhalation fever (self-limited; no CXR infiltrates; no sequelae)[5]
  • Silo filler's disease (nitrogen dioxide exposure — distinct toxicant, different mechanism)
  • Pulmonary embolism

Chronic HP differential:

  • Idiopathic pulmonary fibrosis (UIP pattern; basal predominant; no exposure history; no granulomas; no air trapping)
  • Sarcoidosis (well-formed granulomas; hilar lymphadenopathy prominent on CXR; non-caseating but along bronchovascular bundle, not bronchiolocentric)[3]
  • Non-specific interstitial pneumonia (NSIP)
  • Cryptogenic organizing pneumonia (COP/BOOP)
  • Bronchiolitis obliterans
  • Connective tissue disease–associated ILD
  • Drug-induced pneumonitis (methotrexate, amiodarone, nitrofurantoin, bleomycin)
  • Tuberculosis (caseating granulomas; positive AFB)
  • Lymphocytic interstitial pneumonia (LIP)
  • Allergic bronchopulmonary aspergillosis (ABPA)

Acute dyspnea

Emergent

Non-Emergent


Pulmonary Fibrosis

Cough

Acute (< 3 wks)

Chronic (> 8 wks)

Evaluation

Workup

Laboratory (ED):

  • CBC: leukocytosis with left shift and neutrophilia in acute HP; eosinophilia is NOT typical (its presence suggests ABPA, eosinophilic pneumonia, or parasitic disease)
  • CRP/ESR: elevated in acute HP
  • Basic metabolic panel, lactate
  • ABG/VBG: hypoxemia; may show widened A-a gradient; severe acute HP can cause significant respiratory failure
  • Procalcitonin: may help differentiate from bacterial pneumonia (often low in HP, elevated in bacterial infection)
  • Serum-specific IgG antibodies (precipitins): NOT an ED test, but understand their limitations — positive results reflect exposure/sensitization, not necessarily disease (~40% of pigeon breeders have positive IgG without clinical HP); false negatives are common because the offending antigen may not be in the test panel[9]

Imaging:

Chest X-ray:

  • Acute HP: diffuse bilateral reticulonodular or ground-glass infiltrates; may be normal in mild disease[5]
  • Chronic HP: reticulonodular pattern, fibrotic changes, volume loss (upper/mid-zone predominance may help distinguish from IPF)
  • ODTS: CXR is normal — this is the key imaging distinction from acute HP[8]

High-resolution CT (HRCT) — the key imaging study:

Non-fibrotic HP:

  • Profuse ground-glass centrilobular nodules — often described as "fluffy" or "rosette" pattern; essentially diagnostic in the appropriate clinical context[9]
  • Diffuse ground-glass opacities
  • Air trapping on expiratory images (mosaic attenuation)
  • Upper/mid-lung predominance (unlike IPF which is basal-predominant)

Fibrotic HP:

  • Reticular pattern, traction bronchiectasis, honeycombing (but honeycombing is usually minimal and not basal-predominant unlike IPF)
  • Three-density pattern (previously called "head cheese sign"): coexisting areas of ground-glass opacity, normal lung, and air trapping (low attenuation) — highly suggestive of fibrotic HP over IPF[1]
  • Air trapping on expiratory CT in ≥3 lobes bilaterally is inconsistent with IPF and favors HP[9]
  • Upper/mid-zone fibrosis (vs. basal in UIP/IPF)
  • Centrilobular nodules may still be visible (~50% of cases)[9]
  • Mild mediastinal lymphadenopathy may occur (usually <15 mm, 1–2 nodes)[9]

Pulmonary function tests (not performed in ED, but understand the pattern):

  • Classically restrictive pattern (reduced FVC, reduced TLC) with reduced DLCO[3]
  • May also show obstructive or mixed pattern (especially with air trapping component)
  • Reduced DLCO is common in both fibrotic and non-fibrotic HP

Bronchoalveolar lavage (BAL) (outpatient/inpatient — not ED):

  • Lymphocytosis (often >50%) with low CD4:CD8 ratio supports HP[3]
  • Helps distinguish from sarcoidosis (normal cell count, high CD4:CD8) and IPF (neutrophilia, not lymphocytosis)
  • Lymphocytosis may be absent in chronic/fibrotic HP[3]

Diagnosis

  • No single test is diagnostic — HP requires integration of clinical history, exposure assessment, imaging, and sometimes BAL and/or biopsy through multidisciplinary discussion (MDD)[1]
  • The 2020 ATS/JRS/ALAT guideline provides a diagnostic confidence framework combining: (1) identified exposure, (2) characteristic HRCT pattern, (3) BAL lymphocytosis, and (4) histopathology when needed[1]
  • In the ED, focus on:
    • (1) Recognizing the clinical pattern — recurrent flu-like illness temporally linked to specific environments, or progressive ILD with exposure history
    • (2) Obtaining a thorough exposure history (occupation, hobbies, home environment, pets, bedding, hot tubs, HVAC)
    • (3) Ordering HRCT (or at minimum CXR) and basic labs
    • (4) Communicating suspicion to the admitting team or arranging outpatient pulmonology referral
  • Surgical lung biopsy is reserved for cases where confident diagnosis cannot be reached after clinical evaluation, imaging, and BAL[1]
  • Transbronchial cryobiopsy is increasingly used as a less invasive alternative with reasonable yield[1]

Management

1. Antigen avoidance — the single most important intervention[3]

  • Identify and eliminate the causative exposure
  • Occupational: workplace modification, personal protective equipment (N95 mask), job change if necessary
  • Domestic: remove birds, replace feather bedding, remediate mold/water damage, clean or replace HVAC systems and humidifiers, maintain hot tubs properly
  • Nonfibrotic HP is often fully reversible if antigen exposure is eliminated early[3]

2. Corticosteroids — hasten recovery but do not change long-term prognosis if exposure continues[3]

  • Acute HP: Prednisone 0.5–1 mg/kg/day for 1–2 weeks, then taper[10]
  • Subacute/chronic HP: Prednisone 0.5–1 mg/kg/day for 4–8 weeks, then gradual taper to maintenance ~10 mg/day or off, guided by clinical response and PFTs[10]
  • Note: No randomized controlled trials demonstrate long-term benefit of corticosteroids in HP; they improve short-term lung function but without antigen avoidance, disease will recur[3]
  • Mild acute HP may resolve spontaneously with antigen avoidance alone — corticosteroids are not always required

3. ED management of acute presentation:

  • Supplemental O2 to maintain SpO2 >92%
  • Corticosteroids if moderate-to-severe respiratory impairment (methylprednisolone IV or prednisone PO)
  • Consider empiric antibiotics pending workup if pneumonia cannot be excluded (HP and infection are often indistinguishable early)
  • Do NOT dismiss recurrent "flu-like illness" in a farmer, bird keeper, or hot tub user — ask about exposure history and symptom timing

4. Outpatient management (coordinate with pulmonology):

  • Steroid-sparing immunosuppression for chronic HP with ongoing inflammation: mycophenolate mofetil or azathioprine[11]
  • Antifibrotic therapy for progressive fibrotic HP (progressive pulmonary fibrosis phenotype): nintedanib (INBUILD trial) slows FVC decline; pirfenidone is an alternative[4]
  • PCP prophylaxis should be considered for patients on dual immunosuppression or >20 mg prednisone chronically[12]
  • Pulmonary rehabilitation, supplemental O2 as needed
  • Lung transplantation for end-stage fibrotic HP refractory to all therapy

Disposition

  • Admit:
    • Respiratory failure or significant hypoxemia (new O2 requirement)
    • Severe acute HP with high fever, tachypnea, and respiratory distress
    • Diagnostic uncertainty — cannot exclude pneumonia, pulmonary embolism, or other life-threatening cause
    • Known HP with acute exacerbation not responding to initial treatment
    • Chronic HP with acute deterioration in functional status
  • Discharge with close follow-up:
    • Mild acute HP with adequate oxygenation, improving on corticosteroids, and identifiable antigen source that can be immediately avoided
    • Suspected HP with stable vital signs and adequate oxygenation — arrange:
      • HRCT if not performed in ED
      • Outpatient pulmonology referral within 1–2 weeks
      • Outpatient PFTs
    • Specific discharge counseling:
      • Identify and avoid the exposure — this is the most important instruction
      • Return for worsening dyspnea, fever, or inability to maintain oral intake
      • Do not return to the implicated environment (barn, bird room, workplace, hot tub) until seen by pulmonology
      • Begin prednisone taper if prescribed, with PCP follow-up for monitoring

See Also

External Links

References

  1. 1.0 1.1 1.2 1.3 1.4 1.5 1.6 1.7 Raghu G, et al. Diagnosis of hypersensitivity pneumonitis in adults. An official ATS/JRS/ALAT clinical practice guideline. Am J Respir Crit Care Med. 2020;202(3):e36-e69.
  2. Hypersensitivity Pneumonitis. American Lung Association.
  3. 3.00 3.01 3.02 3.03 3.04 3.05 3.06 3.07 3.08 3.09 3.10 3.11 3.12 3.13 3.14 3.15 3.16 3.17 3.18 Hypersensitivity Pneumonitis. StatPearls. NCBI Bookshelf. Updated July 2023.
  4. 4.0 4.1 4.2 4.3 Hypersensitivity Pneumonitis. Merck Manual Professional Edition. Updated 2025.
  5. 5.0 5.1 5.2 5.3 Hypersensitivity Pneumonitis. Medscape/eMedicine. Updated 2024.
  6. 6.0 6.1 Extrinsic Allergic Alveolitis. Patient.info. Updated August 2024.
  7. Hypersensitivity pneumonitis. Wikipedia. Updated September 2025.
  8. 8.0 8.1 Von Essen SG, et al. Organic dust toxic syndrome: an acute febrile reaction to organic dust exposure distinct from hypersensitivity pneumonitis. Clin Toxicol. 1990;28(4):389-420.
  9. 9.0 9.1 9.2 9.3 9.4 Hypersensitivity Pneumonitis (HP). EMCrit/IBCC. Updated August 2025.
  10. 10.0 10.1 Hypersensitivity Pneumonitis Treatment. Medscape/eMedicine. Updated 2024.
  11. Costabel U, et al. Diagnosis, course and management of hypersensitivity pneumonitis. Eur Respir Rev. 2022;31(163):210169.
  12. Salisbury ML, et al. Diagnosis and treatment of fibrotic hypersensitivity pneumonia. Am J Respir Crit Care Med. 2017;196(6):690-699.
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