Hereditary Angioedema (HAE) is a rare and disabling disease. Early diagnosis and appropriate therapy are essential. This update and revision of the global guideline for HAE provides up-to-date consensus recommendations for the management of HAE. In the development of this update and revision of the guideline, an international expert panel reviewed the existing evidence and developed 20 recommendations that were discussed, finalized and consented during the guideline consensus conference in June 2016 in Vienna. The final version of this update and revision of the guideline incorporates the contributions of a board of expert reviewers and the endorsing societies. The goal of this guideline update and revision is to provide clinicians and their patients with guidance that will assist them in making rational decisions in the management of HAE with deficient C1-inhibitor (type 1) and HAE with dysfunctional C1-inhibitor (type 2). The key clinical questions covered by these recommendations are: 1) How should HAE-1/2 be defined and classified?, 2) How should HAE-1/2 be diagnosed?, 3) Should HAE-1/2 patients receive prophylactic and/or on-demand treatment and what treatment options should be used?, 4) Should HAE-1/2 management be different for special HAE-1/2 patient groups such as pregnant/lactating women or children?, and 5) Should HAE-1/2 management incorporate self-administration of therapies and patient support measures? This article is co-published with permission in Allergy and the World Allergy Organization Journal.
The human complement system is an effector of innate and adaptive humoral immunity. The system comprises soluble membrane-bound proteins (opsonins) that act collectively to recognize pathogens and non-self material and subsequently initiate opsonization and phagocytosis or lysis of pathogens. The proteolytic fragments that derive from complement activation can be targeted by white blood cells and endothelial cells, leading to extravasation and migration of immune cells at the sites of inflammation. Other physiological functions of complement include timely removal of altered and senescent self, tissue remodelling, cell lysis, chemotaxis, opsonization, inflammation and immune cell stimulation 1-4. Complement activation products link the innate and adaptive immune systems by acting directly on receptors on T cells and B cells or by modulating dendritic cell functions 5-8. Disruption of the delicate coordination required for complement activation and control is fundamental in the pathogenic mechanism of several autoimmune neurological disorders, and is even emerging as a contributor in some neurodegenerative diseases. As a result, interest is increasing in targeting complement as a therapeutic approach to prevent ongoing tissue destruction in several difficult-to-treat neurological diseases. In this Review, we provide an overview of the main components of the initial complement activation pathways, the lytic pathway and the factors associated with inappropriate complement activation or control in disease initiation and progression. We consider the role of complement in the tissue destruction that is responsible for the genesis of the most common autoimmune neurological diseases, including complement-mediated myopathies, myasthenia gravis, neuropathies and CNS disorders. We also discuss the role of complement in some neurodegenerative disorders, including Alzheimer disease (AD), amyotrophic lateral sclerosis (ALS), Huntington disease, traumatic brain injury and even schizophrenia. Finally, we discuss emerging complement-targeted therapies, such as monoclonal antibodies, fusion proteins and cyclic peptides, that inhibit the functions of individual complement proteins, especially therapies that disrupt the lytic pathway. Some of these therapeutic agents have been approved or are being tested in phase I-III clinical trials and promise to change the therapeutic armamentarium for treatment of neurological conditions that respond poorly to existing immunotherapies.
The underlying mechanisms of reactive macrophage activation syndromes (rMAS) are not understood in detail, and there is no specific treatment. This observational study was prompted by intravenous immunoglobulin (IVIG), dramatically halting two distinct rMAS episodes in the same patient. We evaluated the potential benefits of IVIG administration in treating fulminant rMAS and the usefulness of monitoring serum ferritin levels as an indication for emergency treatment with IVIG. Ten females and 10 males experiencing 22 episodes of rMAS were recruited on the basis of serum ferritin levels ≥10,000 µg/l and/or direct evidence of haemophagocytosis in 11 intensive care units in secondary and tertiary care hospitals in Switzerland between October 1993 and May 2000. In individual patients, serially measured ferritin was closely related to disease activity. Abrupt increases of up to >100,000 µg/l could be observed within hours. Rapid and profound beneficial effects of emergency IVIG treatment were seen in 12 episodes of rMAS accompanied by a prompt decrease of serum ferritin. IVIG produced partial or delayed improvements in 5 patients. No apparent effects were seen in 5 patients. IVIG was only successful if started early during the ferritin run-up to peak values. In conclusion, IVIG is effective in at least a subgroup of adult rMAS when started at the beginning of the macrophage activation process. The monitoring of serum ferritin levels might be helpful in detecting macrophage activation in order to commence IVIG treatment early enough. Am. J. Hematol. 68:4-10, 2001.
The neonatal Fc receptor (FcRn) binds endogenous IgG and protects it from lysosomal degradation by transporting it back to the cell surface to re-enter the circulation, extending the serum IgG life span. FcRn plays a role in the function of IVIg because the supraphysiological IgG levels derived from IVIg administrations saturate the FcRn allowing the endogenous IgG to be degraded, instead of being recycled, resulting in high levels of infused IgG ensuring IVIg efficiency. New data in myasthenia gravis patients suggest that the that the Variable Number of Tandem 3/2 (VNTR3/2) polymorphisms in FCGRT, the gene that encodes FcRn, may affect the duration of infused IgG in the circulation and IVIg effectiveness. This review addresses these implications in the context of whether the FCGRT genotype, by affecting the half-life of IVIg, may also play a role in up to 30% of patients with autoimmune neurological diseases, such as Guillain–Barré syndrome, CIDP or Multifocal Motor Neuropathy, who did not respond to IVIg in controlled trials. The concern is of practical significance because in such patient subsets super-high IVIg doses may be needed to achieve high IgG levels and ensure efficacy. Whether FCGRT polymorphisms affect the efficacy of other therapeutic monoclonal antibodies by influencing their distribution clearance and pharmacokinetics, explaining their variable effectiveness, is also addressed. Finally, the very promising effect of monoclonal antibodies that inhibit FcRn, such as efgartigimod, rozanolixizumab and nipocalimab, in treating antibody-mediated neurological diseases is discussed along with their efficacy in the IgG4 subclass of pathogenic antibodies and their role in the blood–brain barrier endothelium, that abundantly expresses FcRn.
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