Anaphylaxis

Anaphylaxis 

According to the World Allergy Organization (WAO):

Anaphylaxis is a severe, life-threatening systemic hypersensitivity reaction characterized by rapidly developing airway, breathing and/or circulation problems, usually associated with skin and mucosal changes.


Types of Anaphylaxis

Feature

IgE-Mediated Anaphylaxis (Classic)

Non-IgE Mediated Anaphylaxis (Formerly “Anaphylactoid”)

Frequency

Most common type

Less common

Immune Mechanism

IgE antibody-mediated hypersensitivity

Direct mast cell/basophil activation without IgE

Sensitization Required?

Yes (requires prior exposure)

No (may occur on first exposure)

Pathogenesis

Allergen APC Th2 response IL-4/IL-13 release IgE production IgE binds mast cells Re-exposure causes mast cell degranulation

Direct activation of mast cells and basophils leading to mediator release

Trigger Exposure

Usually occurs after re-exposure to allergen

Can occur during first exposure

Mediator Release

Histamine, tryptase, leukotrienes, prostaglandins

Histamine, tryptase, leukotrienes, prostaglandins

Clinical Presentation

Urticaria, angioedema, bronchospasm, hypotension, shock

Clinically indistinguishable from IgE-mediated anaphylaxis

Laboratory Findings

May demonstrate allergen-specific IgE

Usually no allergen-specific IgE

Examples

Penicillin, Foods (peanut, shellfish, milk), Insect stings (bee, wasp), Latex

Vancomycin, Opioids (morphine, codeine), Radiocontrast media, Neuromuscular blockers

Diagnosis

History ± skin testing ± serum-specific IgE

Primarily clinical; allergy testing often negative

Treatment

IM epinephrine, oxygen, fluids, adjuncts

Identical to IgE-mediated anaphylaxis


Common Triggers

Category

Common Triggers

Drugs

Penicillin, Cephalosporins, Sulfonamides

Aspirin, Ibuprofen, Diclofenac

Rocuronium, Succinylcholine, Atracurium

Iodinated contrast media

Monoclonal antibodies

Foods (Adults)

Peanuts, Tree nuts, Fish, Shellfish

Foods (Children)

Milk, Egg, Peanut

Insect Venom

Bee, Wasp, Hornet stings

Latex

Latex exposure (especially healthcare workers and patients with repeated surgical procedures)

Exercise-Induced Anaphylaxis

Food-dependent exercise-induced anaphylaxis (FDEIA)

Occupational Exposure

Healthcare workers exposed to latex and medical products

Perioperative Anaphylaxis

Neuromuscular blockers, antibiotics, latex, chlorhexidine, contrast agents

Pathophysiology

Massive vasodilation—>Capillary leak—>Third spacing—>Reduced venous return—>Reduced cardiac output—>Shock(Up to:35–50% of intravascular volume may extravasate within minutes.)


Diagnostic Criteria-NIAID/FAAN Criteria

Criterion 1


Criterion 2


Acute illness + Skin/mucosal involvement

After likely allergen exposure:


AND at least one:

  • Respiratory compromise
  • Hypotension
  • GIT symptom


Two or more:

  • Skin symptoms
  • Respiratory symptoms
  • Hypotension
  • GI symptoms

Examples:

  • Urticaria + wheeze
  • Lip swelling + hypotension



Criterion 3

Known allergen exposure AND hypotension


Clinical Features

Symptoms usually occur within:

  • Seconds to minutes
  • Most within 30 minutes

System

Findings

Skin

Urticaria, flushing, itching,Conjunctivitis, conjunctival swelling, and tearing.Nasal discharge & congestion, sneezing.

Airway

Stridor, hoarseness,Tongue edem,Uvular edema,Laryngeal edema

Respiratory

Wheeze, bronchospasm

Cardiovascular

Hypotension, shock

GI

Vomiting, diarrhea,Abdominal cramps

Neurologic

Dizziness, syncope

Skin manifestations may be absent

Seen in:Up to 20% of fatal cases

Therefore:Absence of rash DOES NOT exclude anaphylaxis.


Biphasic Anaphylaxis

Recurrence after apparent recovery ,WITHOUT re-exposure.

Timing—Usually:1–12 hours,May occur up to 72 hours.

Risk Factors

  • Severe initial reaction
  • Delayed epinephrine
  • Multiple epinephrine doses
  • Hypotension


Persistent anaphylaxis

  • This refers to ongoing anaphylaxis for >4 hours.


Refractory Anaphylaxis

Definition:Persistent symptoms despite:

  • 2 IM epinephrine doses
  • Adequate fluids


Differential Diagnosis

Differential Diagnosis

Key Features

Vasovagal Syncope

Bradycardia—Pallor—No urticaria—No wheeze

Panic Attack

Hyperventilation—Anxiety—No hypotension

Severe Asthma

Wheezing—No urticaria—No shock

Angioedema

• Bradykinin-mediated (especially)

• ACE inhibitor-induced angioedema

• Hereditary angioedema

• No urticaria

• Poor response to epinephrine


Management

ABCDE Approach

Look for:

  • Stridor
  • Hoarseness
  • Tongue swelling
  • Drooling

Early airway involvement predicts difficult intubation

Key Principle—Intubate early rather than late.,Late intubation may become impossible.


EPINEPHRINE IS THE FIRST-LINE TREATMENT

  • α1—Vasoconstriction—Reduces edema—Increases BP
  • β1—Increased cardiac output
  • β2—Bronchodilation—Inhibits mast cell mediator release
  • indicated for anyone with definite or probable anaphylaxis.

Adult Dose

IM Epinephrine

  • 1 mg/mL solution (1:1000)
  • Dose:0.5 mg IM
  • Site:Mid-anterolateral thigh
  • Repeat:Every 5 min if needed upto 3 doses then epinephrine infusion :5–15 mcg/min Titrate according to symptom.wean off after 30 min of symptom resolves.

Pediatric Dose

  • 0.01 mg/kg IM
  • Maximum:0.5 mg

Why IM Thigh?

Faster absorption than:Deltoid,Subcutaneous tissue


Peri-Arrest / Profound Shock

IV Bolus Epinephrine

Experienced clinicians only.

Typical:10–50 mcg aliquots.Titrated carefully.


Fluid Resuscitation

  • Massive capillary leak occurs.
  • Adults—1–2 L crystalloid rapidly,May require:3–5 L or more.
  • Children—20 mL/kg boluses

Bronchospasm Treatment

Nebulized:Salbutamol 2.5–5 mg,Repeated as needed.


Upper Airway Edema

Nebulized epinephrine:5 mL of 1 mg/mL solution


Antihistamines

H1 Blocker

  • Diphenhydramine 50 mg IV QID.
  • Famotidine 20 mg IV B.D
  • Benefits:Itching.Urticaria
  • Limitations:Does NOT treat Shock

Corticosteroids SINGLE SHOT

  • Hydrocortisone
  • Methylprednisolone 60 mg IV 
  • dexamethasone 10 mg IV

Role:Historically used to prevent biphasic reactions.

Current evidence:Weak.


Methylene Blue—for refractory anaphylaxis


Additional Mast Cell Stabilizers & Mediator Inhibitors

Important: These agents are NOT first-line treatments for acute anaphylaxis and should never delay or replace epinephrine. They may be considered in selected patients with recurrent anaphylaxis, idiopathic anaphylaxis, mast cell activation syndrome (MCAS), or mastocytosis, although supporting evidence is limited.

Drug/Class

Mechanism & Clinical Use

Second-Generation H1 Antihistamines (Cetirizine, Fexofenadine)

Used prophylactically to reduce recurrent episodes and chronic mediator-related symptoms (urticaria, flushing, pruritus). Doses up to 4× standard antihistamine doses may be used in refractory cases.

Cetirizine 

Potent H1 blocker with rapid and reliable absorption. Typical dose: 20–40 mg/day in divided doses. May cause dose-related sedation.

Fexofenadine

Non-sedating H1 blocker. Typical dose: 180–360 mg/day in divided doses. Often preferred when daytime alertness is important.

Montelukast 

Leukotriene receptor antagonist. May reduce bronchospasm and mediator-related symptoms. Common dose: 10 mg once daily. Frequently used as adjunctive therapy in MCAS and recurrent anaphylaxis.

Zileuton

5-Lipoxygenase inhibitor that blocks leukotriene synthesis. Occasionally used in refractory mast cell disorders when symptoms persist despite antihistamines.

Cromolyn Sodium

Mast cell stabilizer. Particularly useful for gastrointestinal manifestations (abdominal pain, diarrhea, food-triggered symptoms). Limited systemic absorption (≈1–2%), therefore little benefit for systemic symptoms.

Patients on beta-blockers

Note that The usual therapies for anaphylaxis will generally work finest use conventional therapy if they fails then do this

  • Higher doses of epinephrine than usual 
  • Methylene blue
  • isoproterenol infusion
  • Glucagon—Mechanism:Bypasses beta receptors.but its evidence is weak, Dose:Adult 1–5 mg IV over 5 minutes Then infusion if needed.

Evaluation of a Patient 

Step 1: Confirm That the Event Was Truly Anaphylaxis

Step 2: Was a Likely Trigger Identified?

If YES

Proceed with allergy evaluation:

  • Skin prick testing
  • Specific IgE (sIgE) testing
  • Drug allergy testing (when appropriate)

If Allergy Testing is Negative

Consider:

  • Hidden allergens
  • Cofactor-dependent anaphylaxis
    • Exercise
    • Alcohol
    • NSAIDs
  • Mast cell disorders
  • Idiopathic anaphylaxis

Measure baseline serum tryptase.


Step 3: No Trigger Identified (Idiopathic Anaphylaxis)

Measure:

Baseline Serum Tryptase (BST)

Best obtained:

  • At least 24–48 hours after complete recovery
  • When patient is asymptomatic

A persistently elevated baseline tryptase suggests:

  • Systemic mastocytosis
  • Hereditary α-tryptasemia
  • Other mast cell activation disorders

Step 4: Interpretation of Baseline Tryptase

Elevated Baseline Tryptase

Evaluate for:Systemic Mastocytosis

Consider especially when:

  • Recurrent unexplained anaphylaxis
  • Severe insect sting reactions
  • Elevated REMA score
  • Syncope without obvious trigger

Investigations:

  • KIT D816V mutation analysis
  • Bone marrow examination (selected patients)
  • Flow cytometry for aberrant mast cells

Hereditary α-Tryptasemia (HaT)

Consider when:

  • Baseline tryptase >8 ng/mL
  • Family history of similar symptoms
  • Recurrent flushing or anaphylaxis

Genetic testing may be indicated.


Normal Baseline Tryptase

Does not exclude anaphylaxis.

Proceed according to clinical suspicion.


Step 5: Measure Acute Tryptase During Future Episodes

If diagnosis remains uncertain:

Obtain:Acute Serum Tryptase

Ideally:Within 30 minutes–2 hours of symptom onset

And compare with baseline value.

Significant Mast Cell Activation

The accepted criterion is:

Acute tryptase > (1.2 × baseline tryptase + 2 ng/mL)

This is currently preferred over using an isolated elevated tryptase value.


Step 6: If Acute Tryptase Is Elevated

Consider:Mast Cell Activation Syndrome (MCAS)

Diagnostic requirements:

  1. Typical recurrent symptoms
  2. Objective mast cell mediator elevation
  3. Response to mast-cell-directed therapy

Also consider:

  • Systemic mastocytosis
  • Hereditary α-tryptasemia

Step 7: If Tryptase Is Not Elevated

Consider Alternative Diagnoses

Endocrine and Neuroendocrine Disorders

  • Carcinoid syndrome—24-hour urine 5-HIAA
  • VIPoma—Serum VIP
  • Medullary thyroid carcinoma—Calcitonin
  • Pheochromocytoma—Plasma or urine metanephrines

Cardiovascular Disorders

  • Vasovagal syncope
  • Postural orthostatic tachycardia syndrome (POTS)
  • Dysautonomia

Psychiatric Disorders

  • Panic attacks
  • Functional neurological disorders

Discharge Planning

Observation Period

Observation Duration

Who Qualifies?

Fast-Track Discharge (≈2 hours after symptom resolution)

• Rapid response (within 5–10 min) to a single IM epinephrine doseadministered within 30 min of symptom onset

• Complete resolution of symptoms

• Patient has and knows how to use an epinephrine auto-injector

• Reliable supervision and access to emergency care after discharge

Observe for at Least 6 Hours

• Required 2 doses of IM epinephrine to control the reaction

OR

• Previous history of biphasic anaphylaxis

Observe for At Least 12 Hours (or Admit)

• Severe reaction requiring >2 doses of IM epinephrine

• Severe asthma or marked respiratory compromise

• Risk of ongoing allergen absorption (e.g., sustained-release medications, food allergens)

• Late-night presentation when deterioration may be missed

• Poor access to emergency medical care

• Significant hypotension or refractory symptoms

Every patient should receive:

1. Trigger avoidance advice

2. Allergy referral

3. 2c Epinephrine auto-injector

Examples:EpiPen—Jext

4. Written emergency action plan


References 

  1. Irwin RS, Rippe JM. Irwin and Rippe’s Intensive Care Medicine. 9th ed. Philadelphia: Wolters Kluwer; 2024.
  2. Oh TE, Young P, editors. Oh’s Intensive Care Manual. 9th ed. Philadelphia: Elsevier; 2023.
  3. Vincent JL, Abraham E, Kochanek PM, Moore FA, Fink MP. Textbook of Critical Care. 8th ed. Philadelphia: Elsevier; 2025.