Anaphylaxis

Abstract: Allergic disorders, such as anaphylaxis, hay fever, eczema and asthma, now afflict roughly 25% of people in the developed world. In allergic subjects, persistent or repetitive exposure to allergens, which typically are intrinsically innocuous substances common in the environment, results in chronic allergic inflammation. This in turn produces long-term changes in the structure of the affected organs and substantial abnormalities in their function. It is therefore important to understand the characteristics and consequences of acute and chronic allergic inflammation, and in particular to explore how mast cells can contribute to several features of this maladaptive pattern of immunological reactivity.

Abstract: Immunoglobulin E (IgE) antibodies and mast cells have been so convincingly linked to the pathophysiology of anaphylaxis and other acute allergic reactions that it can be difficult to think of them in other contexts. However, a large body of evidence now suggests that both IgE and mast cells are also key drivers of the long-term pathophysiological changes and tissue remodeling associated with chronic allergic inflammation in asthma and other settings. Such potential roles include IgE-dependent regulation of mast-cell functions, actions of IgE that are largely independent of mast cells and roles of mast cells that do not directly involve IgE. In this review, we discuss findings supporting the conclusion that IgE and mast cells can have both interdependent and independent roles in the complex immune responses that manifest clinically as asthma and other allergic disorders.

Abstract: Background Existing grading systems for acute systemic hypersensitivity reactions vary considerably, have a number of deficiencies, and lack a consistent definition of anaphylaxis. Objective The aims of this study were to develop a simple grading system and definition of anaphylaxis and to identify predictors of reaction severity. Methods Case records from 1149 systemic hypersensitivity reactions presenting to an emergency department were analyzed retrospectively. Logistic regression analyses of the associations between individual reaction features and hypotension and hypoxia were used to construct a grading system. Epinephrine use, etiology, age, sex, comorbidities, and concurrent medications were then assessed for their association with reaction grade. Results Confusion, collapse, unconsciousness, and incontinence were strongly associated with hypotension and hypoxia and were used to define severe reactions. Diaphoresis, vomiting, presyncope, dyspnea, stridor, wheeze, chest/throat tightness, nausea, vomiting, and abdominal pain had weaker, albeit significant, associations and were used to define moderate reactions. Reactions limited to the skin (urticaria, erythema, and angioedema) were defined as mild. These grades correlated well with epinephrine usage. Older age, insect venom, and iatrogenic causes were independent predictors of severity. Preexisting lung disease was associated with an increased risk of hypoxia. Conclusion This simple grading system has potential value for defining reaction severity in clinical practice and research settings. The moderate and severe grades provide a workable definition of anaphylaxis. Age, reaction precipitant, and preexisting lung disease appear to be the major determinants of reaction severity.

Abstract: Better methods are needed to assess mast-cell activation in vivo and to distinguish the activation of mast cells from that of basophils. Tryptase, a neutral protease selectively concentrated in the secretory granules of human mast cells (but not basophils), is released by mast cells together with histamine and serves as a marker of mast-cell activation. In 17 patients with systemic mastocytosis, concentrations of tryptase in plasma were linearly related to those of histamine (P less than 0.01). Eleven of the 17 patients had tryptase levels of 4 to 88 ng per milliliter, indicating ongoing mast-cell activation. In each of six patients who experienced corresponding anaphylactic reactions after penicillin, aspirin, or melon ingestion, a wasp sting, exercise, or antilymphocyte globulin injection, tryptase levels in serum ranged from 9 to 75 ng per milliliter, indicating mast-cell activation during each of these events. In contrast, serum tryptase levels were less than 5 ng per milliliter in all patients presenting with myocardial disease (n = 8, 6 with hypotension) or sepsis (n = 6, 3 with hypotension) and in the controls (n = 20). One patient had a myocardial infarction after anaphylaxis in response to a wasp sting and an elevated tryptase level of 25 ng per milliliter. Thus, the plasma or serum tryptase level is a diagnostic correlate of mast-cell-related events.