Bedside Snapshot
  • Pooled IgG Preparation: From thousands of donors, used for immune replacement and immunomodulation in autoimmune, inflammatory, and immunodeficiency states
  • Common ICU Indications: Guillain-Barré syndrome (GBS), immune thrombocytopenia (ITP) with severe bleeding, Kawasaki disease, severe autoimmune disorders
  • Dosing: Weight-based in g/kg, often 0.4 g/kg/day × 5 days or 1-2 g/kg total over 1-5 days depending on indication
  • Major Risks: Infusion reactions, aseptic meningitis, hemolysis, thrombosis, acute kidney injury (especially with risk factors like renal disease, volume depletion, hyperviscosity)
  • Product Differences: Formulations differ in stabilizers, sugar content, IgA levels; brand-specific considerations matter in IgA deficiency and renal impairment
  • Infusion Strategy: Start slowly, titrate as tolerated; premedication with acetaminophen ± antihistamines reduces reactions
Brand & Generic Names
  • Generic Name: Immune globulin intravenous (human)
  • Brand Names: Gammagard, Privigen, Gamunex-C, and many others
Medication Class

Pooled human IgG antibody preparation; immunomodulator and replacement therapy

Pharmacology

Mechanism of Action:

  • Complex, indication-dependent mechanisms including Fc receptor blockade, modulation of complement activation, neutralization of autoantibodies, suppression of pathogenic cytokines, regulation of B- and T-cell function
  • In ITP: IVIG saturates Fc receptors on macrophages in spleen and liver, reducing clearance of IgG-coated platelets
  • In GBS and autoimmune neuropathies: Likely neutralizes pathogenic antibodies and modulates complement and inflammatory pathways in peripheral nerves
  • In immunodeficiency: Provides passive immunity by supplying broad spectrum of IgG antibodies against common pathogens

Pharmacokinetics:

  • Distribution: Initially intravascular, then distributes into extravascular spaces over days; volume approximates plasma volume but expands with time
  • Half-life: Typically 2-4 weeks, depending on patient factors and indication
  • Metabolism: IgG catabolized by reticuloendothelial system; FcRn recycling prolongs IgG half-life; clearance increased in inflammatory states or high catabolic conditions
Dosing & Administration

Available Forms:

  • IVIG products vary: commonly 5% (50 mg/mL) or 10% (100 mg/mL) IgG solutions
  • Stabilizers may include sugars (sucrose, maltose, glucose) or amino acids (glycine) and impact renal/metabolic safety
  • Some products have very low IgA content, preferred in patients with severe IgA deficiency and anti-IgA antibodies

IVIG Dosing (Adult; Indication-Specific):

Indication Total Dose Schedule Notes
Guillain-Barré syndrome 2 g/kg 0.4 g/kg/day IV × 5 days Alternative: 1 g/kg/day × 2 days in some protocols
Immune thrombocytopenia (ITP) 1-2 g/kg 1 g/kg/day × 1-2 days or 0.4 g/kg/day × 5 days Use for severe bleeding or pre-procedural platelet boost
Kawasaki disease 2 g/kg Single IV infusion over 8-12 hours Combined with aspirin; primarily pediatrics
Myasthenia gravis exacerbation 2 g/kg 0.4 g/kg/day × 5 days Alternative to plasma exchange
Primary immunodeficiency (replacement) 0.2-0.8 g/kg Every 3-4 weeks Goal IgG trough levels per immunology
Other autoimmune/inflammatory indications 1-2 g/kg Varies Consult specialist; regimens differ widely
Infusion Rate: Start slow, increase as tolerated per product-specific max rates. Use slower rates in renal impairment, elderly, and high-risk patients.
Contraindications

Contraindications:

  • History of severe systemic reaction (anaphylaxis) to IVIG
  • Selective IgA deficiency with anti-IgA antibodies and prior severe reaction to blood products (relative; may use low-IgA products with caution)

Major Precautions:

  • Acute kidney injury risk: Especially with sucrose-containing products, pre-existing renal disease, diabetes, dehydration, or concomitant nephrotoxins
  • Thrombotic events: DVT, PE, MI, stroke due to increased serum viscosity and procoagulant effects; caution in hypercoagulable patients
  • Hemolysis: Due to passive transfer of blood group antibodies; monitor hemoglobin and DAT if anemia develops
  • Aseptic meningitis syndrome: Headache, meningismus, photophobia, often within 24-48 hours after infusion
  • Volume overload: In heart failure or renal impairment; consider concentration and infusion rate
Adverse Effects

Common:

  • Infusion reactions: headache, flushing, chills, fever, myalgias
  • Nausea, vomiting
  • Mild hypertension or hypotension

Serious:

  • Anaphylaxis, especially in IgA deficiency with anti-IgA antibodies
  • Thromboembolic events (DVT, PE, MI, stroke)
  • Hemolytic anemia
  • Aseptic meningitis
  • Acute renal failure (more common with sucrose-stabilized products)
Monitoring

During Infusion:

  • Vital signs (especially early): BP, HR, respiratory status
  • Signs of infusion reactions: headache, chest tightness, dyspnea, flushing, back pain

Before and After Treatment:

  • Renal function (SCr, urine output) in high-risk patients
  • Hemoglobin/hematocrit and LDH if hemolysis suspected
  • IgG levels and clinical response for replacement therapy
Indications / Clinical Uses (ICU/Acute Care Focus)
  • Guillain-Barré syndrome (GBS): Non-ambulatory patients or those with rapid progression
  • Immune thrombocytopenia (ITP): Significant bleeding or need for rapid platelet rise (e.g., pre-op, intracranial hemorrhage)
  • Kawasaki disease: Especially pediatrics, to reduce coronary aneurysm risk
  • Hypogammaglobulinemia: With recurrent severe infections (immune replacement)
  • Autoimmune neurologic disorders: Myasthenia gravis crisis, CIDP under specialist guidance
  • Severe systemic autoimmune disease flares: Specialist-directed
Clinical Pearls
Start Slowly: Begin infusions slowly and titrate up as tolerated; premedication with acetaminophen ± antihistamines reduces infusion reactions.
Renal Protection: Use sugar-free, low-osmolality formulations and lower infusion rates in patients with renal impairment or high thrombotic risk.
Hydration: Hydration before and during infusion mitigates renal and thrombotic risks.
Documentation: Document brand, dose, and lot, as patients may respond differently to different IVIG products and adverse reactions can be product-specific.
References
  • 1. Lexicomp. (2024). Immune globulin (intravenous): Drug information. Wolters Kluwer.
  • 2. Orange, J. S., Hossny, E. M., Weiler, C. R., et al. (2006). Use of intravenous immunoglobulin in human disease: A review of evidence. Journal of Allergy and Clinical Immunology, 117(4), S525–S553.
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