Hereditary and acquired angioedema.

Hereditary angioedema (HAE) is an autosomal dominant disorder defined by a deficiency of functional C1 esterase inhibitor (C1-INH). Acquired angioedema (AAE) is caused by either consumption (type 1) or inactivation (type 2) of CI-INH. Both HAE and AAE can be life-threatening. The screening test for both conditions is complement component C4, which is low to absent at times of angioedema or during quiescent periods. A useful test to differentiate HAE from AAE is C1q protein, which is normal in HAE and low in AAE. There are three types of HAE: type 1 HAE is most common, occurring in ∼85% of patients and characterized by decreased production of C1-INH, resulting in reduced functional activity to 5-30% of normal. In type 2, which occurs in 15% of cases, C1-INH is detectable in normal or elevated quantities but is dysfunctional. Finally, type 3, which is rare and almost exclusively occurs in women, is estrogen dependent and associated with normal CI-INH and C4 levels. One-third of these patients have a gain-of-function mutation in clotting factor XII leading to kallikrein-driven bradykinin production. Although the anabolic steroid, danazol, is useful in increasing the concentration of C4 and reducing the episodes of angioedema in HAE and AAE, it has expected adverse effects. Fortunately, disease-specific therapies are available and include C1-INH enzyme for i.v. infusion either acutely or empirically, ecallantide, an inhibitor of kallikrein, and icatibant, a bradykinin B2-receptor antagonist, both approved for acute angioedema and administered, subcutaneously.

[1]  R. Schellenberg,et al.  Urticaria and angioedema , 2018, Allergy, Asthma & Clinical Immunology.

[2]  B. Zuraw,et al.  Pathophysiology of Hereditary Angioedema , 2011, American journal of rhinology & allergy.

[3]  J. Bernstein Update on angioedema: evaluation, diagnosis, and treatment. , 2011, Allergy and asthma proceedings.

[4]  B. Zuraw,et al.  Hereditary Angioedema: Management of Laryngeal Attacks , 2011, American journal of rhinology & allergy.

[5]  A. Banerji Hereditary angioedema: classification, pathogenesis, and diagnosis. , 2011, Allergy and asthma proceedings.

[6]  P. Giclas,et al.  Update on laboratory tests for the diagnosis and differentiation of hereditary angioedema and acquired angioedema. , 2011, Allergy and asthma proceedings.

[7]  T. Craig,et al.  Response to ecallantide treatment of acute attacks of hereditary angioedema based on time to intervention: results from the EDEMA clinical trials. , 2011, Allergy and asthma proceedings.

[8]  D. Khan Hereditary angioedema: Historical aspects, classification, pathophysiology, clinical presentation, and laboratory diagnosis. , 2011, Allergy and asthma proceedings.

[9]  M. Riedl Update on the acute treatment of hereditary angioedema. , 2011, Allergy and asthma proceedings.

[10]  M. Frank Update on preventive therapy (prophylaxis) of hereditary angioedema. , 2011, Allergy and asthma proceedings.

[11]  T. Craig,et al.  Treatment of Hereditary Angioedema: items that need to be addressed in practice parameter , 2010, Allergy, asthma, and clinical immunology : official journal of the Canadian Society of Allergy and Clinical Immunology.

[12]  M. Frank Complement disorders and hereditary angioedema. , 2010, The Journal of allergy and clinical immunology.

[13]  W. Tremaine,et al.  Hereditary angioedema: a broad review for clinicians. , 2001, Archives of internal medicine.