Angioedema

Background

• Angioedema is paroxysmal, nondemarcated swelling of dermal or submucosal layers of skin or mucosa
  • Swelling is asymmetric, nonpitting, and nonpruritic, however can be associated with allergic features depending on cause

Etiologies

• Allergic angioedema: IgE–mediated type I hypersensitivity reaction
• Hereditary angioedema: Congenital or acquired loss of C1 esterase inhibitor
• ACE-Iinduced angioedema: ACEI adverse reaction from excessive bradykinin
• Idiopathic angioedema

Angioedema

Angioedema of tongue

Hereditary angioedema

Background

• Due to C1 esterase inhibitor deficiency
  • Leads to unregulated activity of vasoactive mediators (bradykinin) associated with complement pathway
  • Autosomal dominant
• Edema of face, extremities, bowel wall

Evaluation

• Suspect in patients with history of recurrent peripheral angioedema and abdominal pain
  • 75% experience onset of symptoms before age 15yr
• C4 level screens for HAE (suspect if low)
• Decreased levels of C1 and C4 esterase inhibitors confirms diagnosis

ACE inhibitor-induced angioedema

Background

• Incidence is highest within the first month; however, may occur at anytime
• 40% present months to years after initial dose^[1]
• Incidence is 0.1-2.2% (more common in blacks)
• Physiology more closely related to bradykinin-mediated pathway than IgE-mediated pathway, therefore current treatments may be insufficient

Differential Diagnosis

Acute allergic reaction

• Allergic reaction/urticaria
• Anaphylaxis
• Angioedema
• Asthma exacerbation
• Anxiety attack
• Scombroid
• Cold urticaria
• Contrast induced allergic reaction
• Shock
• Transfusion reaction
• Carcinoid syndrome

Management

General

• Consider Epinephrine 0.3mg IM if there is any concern this could be allergic in nature
• Consider Glucagon 1-5mg IV if patient is on beta-blockers and not responding to Epinephrine
• FFP for possible etiology related to bradykinin^[2]
  • 2 units
• Consider definitive airway if voice change, hoarseness, stridor, dyspnea
  • Prepare for a difficult airway which can include need for fiberoptics, ENT/anesthesia assistance, surgical airway, or transfer to the OR

Hereditary Angioedema

First-Line Therapies

• C1 inhibitor (C1INH)^[3]
  • 1000 units if ≤50kg
  • 1500 units if >50-75kg
  • 2000 units if >75-100kg
  • 2500 units if >100kg
• Ecallantide
  • 10mg SQ x 3 in different anatomical locations (30mg in total)
• Icatibant
  • 30mg SQ

ACE-I Induced Angioedema

• Typical anaphylaxis medications do not effect bradykinin levels^[4], but consider:
  • Epinephrine 0.3mg IM
  • Diphenhydramine 50mg IV
  • Methylprednisolone 125mg IV
• Icatibant
  • 30mg SQ
  • Significantly decreases time to complete resolution (8 hrs vs 27.1 hrs)^[5]
  • Note: control group did not receive FFP
• Consider Ecallantide
  • 10mg SQ x 3 in different anatomical locations (30mg in total)
  • A 2015 trial showed a non-statistically significant trend towards increased rate of ED discharge^[6]
  • No benefit seen in mild-moderate cases in multi-center, double blind study^[7]

Disposition

• Consider discharge after 4-6 hrs observation if there is no airway edema and patient improves
• 24 hrs obs if epinephrine given
• Ishoo Staging (based on retrospective study)^[8]
  • Stage 1 - face/lip
    • 48% outpatient, 52% floor, 0% ICU or advanced airway
  • Stage 2 - soft palate
    • 60% outpatient, 40% floor, 0 ICU or advanced airway
  • Stage 3 - tongue
    • 26% outpatient, 67% ICU, 7% advanced airway
  • Stage 4 - larynx
    • 100% ICU, 24% advanced airway

See Also

• Anaphylaxis
• Tongue Diagnoses

References

1. ↑ Winters ME, et al. Emergency department management of patients with ACE-inhibitor angioedema. JEM. 2013; 45(5):775–780.
2. ↑ Moellman, J.J., Bernstein, J.A., Lindsell, C., Banerji, A., Busse, P.J., Camargo, C.A., Collins, S.P., Craig, T.J., Lumry, W.R., Nowak, R., Pines, J.M., Raja, A.S., Riedl, M., Ward, M.J., Zuraw, B.L., Diercks, D., Hiestand, B., Campbell, R.L., Schneider, S. and Sinert, R. (2014) ‘A consensus parameter for the evaluation and management of Angioedema in the emergency department’, Academic Emergency Medicine, 21(4), pp. 469–484.
3. ↑ Craig TJ, Levy RJ, Wasserman RL, et al. Efficacy of human C1 esterase inhibitor concentrate compared with placebo in acute hereditary angioedema attacks. J Allergy Clin Immunol. 2009; 124(4):801.
4. ↑ Bas M, Greve J, Stelter K, et al. Therapeutic efficacy of icatibant in angioedema induced by angiotensin-converting enzyme inhibitors: a case series. Ann Emerg Med. 2010; 56(3):278-282.
5. ↑ Baş M, Greve J, Stelter K, et al. A randomized trial of icatibant in ACE-inhibitor-induced angioedema. N Engl J Med. 2015; 372(5):418-25.
6. ↑ Bernstein JA, Moellman JJ, Collins SP, et al. Effectiveness of ecallantide in treating angiotensin-converting enzyme inhibitor-induced angioedema in the emergency department. Ann Allergy Asthma Immunol. 2015; 114(3):245.
7. ↑ Lewis, L.M., Graffeo, C., Crosley, P., Klausner, H.A., Clark, C.L., Frank, A., Miner, J., Iarrobino, R. and Chyung, Y. (2015) ‘Ecallantide for the acute treatment of angiotensin-converting enzyme Inhibitor–Induced Angioedema: A Multicenter, Randomized, controlled trial’, Annals of Emergency Medicine, 65(2), pp. 204–213.
8. ↑ Ishoo E, et al. Predicting airway risk in angioedema: staging system based on presentation. Otolaryngol Head Neck Surg. 1999; 121(3):263-268.