Inibidor de C1 esterase derivado do plasma humano via intravenosa para o tratamento de crises de angioedema hereditário em pacientes com dois anos ou mais de idade / C1 esterase inhibitor derived from human plasma intravenously for the treatment of hereditary angioedema crises in patients with two or more years of age

INTRODUÇÃO: O angioedema hereditário (AEH) é uma doença genética ultrarrara, potencialmente fatal e subdiagnosticada. É uma imunodeficiência primária do sistema complemento, e foi classificado como um erro inato da imunidade em decorrência da deficiência de inibidor de C1 esterase (C1-INH), proteína que controla as vias de ativação do complemento. A alteração do C1-INH leva ao aumento da produção de bradicinina que, por sua vez, causa vasodilatação, aumento da permeabilidade dos vasos e extravasamento de plasma. A classificação mais atualizada do AEH agrupa os pacientes naqueles com deficiência do inibidor da C1-esterase (C1-INH), codificado pelo gene SERPING1 e naqueles C1-INH normal (anteriormente denominado de tipo III). Os pacientes com mutação do SERPING1 podem apresentar uma deficiência quantitativa do C1-INH (AEH tipo I) ou uma proteína anômala que resulta em deficiência funcional do C1-INH (tipo II). O diagnóstico é realizado através do exame clínico (anamnese, exame físico e quadro clínico) e laboratorial (dosagem de C4 e de C1-INH), além de teste genético (presença de mutação patogênica em SERPING1) para confirmação. O AEH não tem cura, porém há opções terapêuticas para a profilaxia e controle das crises agudas. Conforme o atual Protocolo Clínico e Diretrizes Terapêuticas (PCDT) de Angioedema associado a deficiência de C1 esterase (C1-INH), o tratamento das crises agudas é realizado em ambiente hospitalar, com uso de plasma fresco congelado, caso exista o risco de asfixia para o paciente. O plasma fresco congelado não foi testado em ensaios clínicos quanto à sua eficácia e segurança nas crises de AEH, e sua administração oferece não apenas a reposição do C1-INH, mas também os substratos nos quais ess

Repeated attacks of type III hereditary angioedema with factor XII mutation during pregnancy.

In type III hereditary angioedema (HAE type III), the phenotype is the same as type I and type II disease, but the level and function of C1-esterase inhibitor (C1-INH) is normal. Hereditary angioedema type III has been described as an oestrogen-sensitive form because it can be triggered or aggravated by exposure to high oestrogen levels as seen during pregnancy, especially when associated with Factor XII mutation. This case report describes the evolution and management of repeated angioedema attacks during pregnancy in a woman with HAE, with normal levels and function of C1-INH (type III); and a mis-sense mutation of factor XII. The physiopathology and genetic features, the unpredictability of clinical manifestations and the management during pregnancy and delivery are discussed.

[Review of a new subtype of hereditary angio-oedema with normal complement C1-inhibitor].

Hereditary angio-oedema (HAE) is a rare, potentially fatal disease characterized by recurrent swelling of skin and mucosa. Besides HAE with quantitative (type I) or qualitative (type II) deficiency of complement C1-inhibitor (C1-INH), a new subtype of HAE is now described with normal levels of C1-INH. This subtype is possibly underdiagnosed, and a treatment regimen and general knowledge about the condition is still in its infancy. The purpose of this article is to inform Danish doctors about the disease to identify more Danish patients.

Treatment for hereditary angioedema with normal C1-INH and specific mutations in the F12 gene (HAE-FXII).

Hereditary angioedema with normal C1 esterase inhibitor and mutations in the F12 gene (HAE-FXII) is associated with skin swellings, abdominal pain attacks, and the risk of asphyxiation due to upper airway obstruction. It occurs nearly exclusively in women. We report our experience treating HAE-FXII with discontinuation of potential trigger factors and drug therapies. The study included 72 patients with HAE-FXII. Potential triggers included estrogen-containing oral contraceptives (eOC), hormonal replacement therapy, or angiotensin-converting enzyme inhibitors. Drug treatment comprised plasma-derived C1 inhibitor (pdC1-INH) for acute swelling attacks and progestins, tranexamic acid, and danazol for the prevention of attacks. Discontinuation of eOC was effective in 25 (89.3%) of 28 women and led to a reduction in the number of attacks (about 90%). After ending hormonal replacement therapy, three of eight women became symptom-free. Three women with exacerbation of HAE-FXII during intake of quinapril or enalapril had no further HAE-FXII attacks after discontinuation of those drugs. Eleven women were treated with pdC1-INH for 143 facial attacks. The duration of the treated facial attacks (mean: 26.6 h; SD: 10.1 h) was significantly shorter than that of the previous 88 untreated facial attacks in the same women (mean: 64.1 h; SD: 28.0 h; P < 0.01). The mean reduction in attack frequency was 99.8% under progestins after discontinuing eOC (16 women), 93.8% under tranexamic acid (four women), and 100% under danazol (three women). For patients with HAE-FXII, various treatment options are available which completely or at least partially reduce the number or duration of attacks.

Defective glycosylation of coagulation factor XII underlies hereditary angioedema type III.

Hereditary angioedema type III (HAEIII) is a rare inherited swelling disorder that is associated with point mutations in the gene encoding the plasma protease factor XII (FXII). Here, we demonstrate that HAEIII-associated mutant FXII, derived either from HAEIII patients or recombinantly produced, is defective in mucin-type Thr309-linked glycosylation. Loss of glycosylation led to increased contact-mediated autoactivation of zymogen FXII, resulting in excessive activation of the bradykinin-forming kallikrein-kinin pathway. In contrast, both FXII-driven coagulation and the ability of C1-esterase inhibitor to bind and inhibit activated FXII were not affected by the mutation. Intravital laser-scanning microscopy revealed that, compared with control animals, both F12-/- mice reconstituted with recombinant mutant forms of FXII and humanized HAEIII mouse models with inducible liver-specific expression of Thr309Lys-mutated FXII exhibited increased contact-driven microvascular leakage. An FXII-neutralizing antibody abolished bradykinin generation in HAEIII patient plasma and blunted edema in HAEIII mice. Together, the results of this study characterize the mechanism of HAEIII and establish FXII inhibition as a potential therapeutic strategy to interfere with excessive vascular leakage in HAEIII and potentially alleviate edema due to other causes.

Uso profiláctico de icatibant en un caso de angioedema hereditario tipo III. (Revisión de la literatura sobre manejo perioperatorio en pacientes con angioedema hereditario tipo III) / Prophylactic use of icatibant before tracheal intubation of a patient with hereditary angioedema type III. (A literature review of perioperative management of patients with hereditary angioedema type III)

El angioedema hereditario tipo iii es una forma de angioedema familiar poco frecuente, descrito como entidad patológica recientemente. El alto riesgo de exacerbación del angioedema hereditario en relación con la cirugía, incluso con procedimientos dentales, y la alta mortalidad en esta enfermedad cuando el edema de vía aérea es causado por las maniobras de intubación orotraqueal, obligan a establecer un tratamiento profiláctico cuando dichas maniobras son necesarias. Describimos el uso por primera vez de icatibant (Firazyr®) como profilaxis eficaz del desarrollo de edema de vía aérea asociado a intubación orotraqueal en este tipo de pacientes. Dada la inexistencia de publicaciones en relación con el manejo anestésico de estos pacientes, hemos realizado una revisión sistemática de esta enfermedad y de su posible relación con los procedimientos anestésicos, y usamos nuestro caso como base de esta revisión (AU)

Type III hereditary angioedema is a rare familial disorder that has recently been described as a separate condition. Triggers for episodes of angioedema include surgery, dental procedures, and tracheal intubation maneuvers. Since episodes affecting the upper airway are potentially life-threatening, prophylactic treatment is recommended in these situations. The use of icatibant (Firazyr®), for prevention of angioedema prior to tracheal intubation, is reported in a patient with type iii hereditary angioedema. A literature review on the anesthetic management of this condition was conducted (AU)

Hereditary angioedema with an estrogen trigger in a 12-year-old.

BACKGROUND: Hereditary angioedema (HAE) is rare autosomal dominant genetic disorder, commonly affecting girls around the menarche, which manifests clinically as recurrent episodes of angioedema. Laryngeal edema can lead to asphyxiation and death. Traditionally hormones have been avoided in the management due a reported association with flares in the literature. This case describes an alternative management with a progestin. CASE: A 12 year old HAE sufferer failed to receive relief from her symptoms of angioedema with standard treatment. A trial of depot medroxyprogesterone acetate has resulted in resolution of her symptoms for the last 14 months. CONCLUSION: Although estrogens and progestins have been avoided in the management of HAE in the past, the reasons for this are based only on a small number of case reports. In this case, successful treatment with depot medroxyprogesterone acetate indicates that progestins, as an alternative management for estrogen-triggered HAE, certainly warrants further research.

Current pharmacotherapy of bradykinin-mediated angioedema.

INTRODUCTION: Bradykinin-mediated angioedema is characterized by subcutaneous and/or submucosal edema formation without wheals and pruritus. It is linked to bradykinin-enhanced vascular permeability and, therefore, it does not respond to conventional measures, but requires specific therapy. AREAS COVERED: This summary briefly reviews the different types of bradykinin-mediated angioedema and its remedies. Therapy focuses on relieving edema, as well as on decreasing its incidence and severity. The modes of the actions of attenuated androgens and antifibrinolytics are not precisely known - these agents have been introduced on an empirical basis. Contemporary treatments, by contrast, have been purposely developed to inhibit bradykinin. Most experience pertains to angioedema resulting from C1-inhibitor deficiency, and the controlled studies have focused on the hereditary form of this disease type (HAE). The pathomechanisms of HAE with normal C1-inhibitor activity, as well as of angiotensin-converting enzyme inhibitor-releated, and of non-histaminergic idiopathic sporadic angioedemas are largely unknown. Appropriate laboratory methods for the diagnosis, or specific interventions for the therapy of these conditions are not available or only available off-label. EXPERT OPINION: In this case, diagnosis and management are challenging. The range of targeted therapeutic options has increased in recent years and includes measures to handle emergencies, prevent edematous episodes and manage additional types of bradykinin-mediated angioedema.

HAE update: special considerations in the female patient with hereditary angioedema.

This review on hereditary angioedema (HAE) focuses on special topics regarding HAE in female patients. HAE is a bradykinin-mediated disorder, and the role of hormonal regulation of disease expression will be discussed focusing on the effect of estrogen on disease mechanism. The impact of exogenous estrogen on symptom exacerbation leads to special consideration regarding choice of contraceptives and safety of hormone replacement therapy. The effects of pregnancy and childbirth will be examined on the course of disease control. Unique considerations regarding therapeutic management for female HAE patients will be addressed, including the role of C1 inhibitor (C1-INH), ecallantide, and icatibant. Finally, this review will provide an overview of the more recently characterized HAE with normal C1-INH (HAE type III) that predominantly affects women and is in some cases associated with factor XII gene mutations.

An overview of novel therapies for acute hereditary angioedema.

Hereditary angioedema is an episodic swelling disorder with autosomal dominant inheritance. Attacks are characterized by nonpitting edema of external or mucosal body surfaces. Patients often present with swelling of the extremities, abdominal pain, and swelling of the mouth and throat, which can at times lead to asphyxiation. The disease is caused by a mutation in the gene encoding the complement C1-inhibitor protein, which leads to unregulated production of bradykinin. Long-term therapy has depended on the use of attenuated androgens or plasmin inhibitors but in the US there was, until recently, no specific therapy for acute attacks. As well, many patients with hereditary angioedema in the US were either not adequately controlled on previously available therapies or required doses of medications that exposed them to the risk of serious adverse effects. Five companies have completed or are currently conducting phase III clinical trials in the development of specific therapies to terminate acute attacks or to be used as prophylaxis. These products are based on either replacement therapy with purified plasma-derived or recombinant C1-inhibitor, or inhibition of the kinin-generating pathways with a recombinant plasma kallikrein inhibitor or bradykinin type 2 receptor antagonist. Published studies thus far suggest that all of these products are likely to be effective. These new therapies will likely lead to a totally new approach in treating hereditary angioedema.