Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0033774 (pruritus)
14,546 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Exercise is a physical cause of allergic reactions, including exercise-induced anaphylaxis (EIAna), exercise-induced urticaria (EIU), exercise-induced asthma (EIA), and exercise-induced rhinitis (EIR). Since its first description in 1979, EIAna has been reported with variable clinical manifestations, with exercise alone, and in combination with food ingestion. Elevated serum histamine levels and cutaneous mast cell degranulation have been noted. Exercise-induced urticaria appears as small, punctate lesions that differ from the classic coalescent type seen with EIAna. Variant forms of EIAna with cholinergic urticarial lesions manifesting systemic collapse and/or respiratory distress have been studied. Exercise-induced urticaria and cold-induced urticaria may cause elevated plasma histamine levels coincident with the onset of pruritus and hives. Theories accounting for EIA include respiratory heat loss, water loss, and mast cell activation. Although some studies have shown increased plasma histamine with EIA, others have not. Recently, bronchoalveolar lavage in atopic subjects with EIA has been evaluated preexercise and postexercise, with no significant differences in histamine or tryptase, suggesting a pathogenesis of EIA independent of the mast cell. Exercise-induced rhinitis, with varying degrees of rhinorrhea, congestion, and sneezing, has been increasingly recognized in athletes who run, cycle, and ski. Cold-air-induced rhinorrhea in laboratory challenges displays a mediator release pattern similar to that produced by allergen-induced nasal challenges. Therapeutically, H1 antihistamines are recommended for EIAna both as pretreatment and acute therapy. H1 antihistamines may be helpful in EIU, but are recommended for EIAna both as pretreatment and acute therapy.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Exercise-induced allergies: the role of histamine release. 137 Oct 41

To examine mast cell involvement in allergic rhinitis, levels of tryptase, a specific marker for mast cell activation, and histamine, a marker of mast cell and basophil activation, were measured in nasal-lavage fluid after nasal-allergen challenge. Twelve atopic subjects with allergic rhinitis and five nonatopic subjects were challenged with timothy grass or ragweed pollen at increasing doses of allergen. Tryptase and histamine levels were determined by an ELISA and radioenzyme assay, respectively; clinical responses were measured by assessment of sneezing, rhinorrhea, nasal congestion, and ocular tearing or itching. A positive clinical response was observed in seven of the atopic subjects and in none of the nonatopic subjects. Tryptase levels increased at least sevenfold higher than baseline levels in 100% of the atopic clinical responders and reached a maximum at the same dose of allergen where clinical symptoms were maximal. In contrast, histamine levels were only threefold or greater elevated in five of seven atopic clinical responders at this dose of allergen. (Histamine levels were lower in one subject and were only 50% higher in another subject than the corresponding baseline value.) Histamine levels and symptom scores were maximal at the same dose of allergen in only four of seven clinical responders. Overlap of peak mediator levels in subjects without a clinical response with those of the clinical responders occurred only in the case of histamine. Tryptase levels in nasal-lavage fluid appear promising as a useful indicator of allergic reactions and indicate that mast cell activation is the major factor in the immediate nasal-allergic response.
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PMID:Tryptase levels in nasal-lavage fluid as an indicator of the immediate allergic response. 304 43

The late-phase allergic reaction (LPR) occurs 4 to 8 h after allergen exposure and probably causes the symptoms of chronic allergic disease. To determine the effects of soluble IL-1 receptor on the cutaneous LPR, we performed a prospective, randomized, double-blind, placebo-controlled study on 15 allergic subjects. Intradermal injections of allergen were placed on subjects' forearms, followed by immediate subcutaneous injections at the same site of either 1, 10, 25, 50, or 100 micrograms of rhu IL-1R to three subjects in each dosage group. Placebo was given to matched allergen-injected sites on the contralateral arm. Erythema, induration, and itching were recorded for each site. Sites were biopsied at 8 h for immunohistologic evaluations. Rhu IL-1R significantly reduced the clinical reaction at all concentrations. At 1 and 10 micrograms, measurements of LPR were significantly less (p < 0.05) than at placebo sites at several time points from 2 to 8 h. At higher concentrations, LPR was suppressed at rhu IL-1R and placebo sites, suggesting a systemic effect of rhu IL-1R. Histologic evaluation and indirect immunofluorescence for eosinophil granule major basic protein, neutrophil elastase, and mast cell tryptase showed no statistical differences between rhu IL-1R and placebo sites or among doses. IL-1 plays an important role in the generation of allergic LPR. While microgram quantities of rhu IL-1R inhibited the clinical signs and symptoms of LPR, its effects on the allergic inflammatory infiltrate are yet to be defined. In this short term trial, rhu IL-1R was neither immunogenic nor toxic.
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PMID:Human cutaneous allergic late-phase response is inhibited by soluble IL-1 receptor. 812 Apr 5

The mechanism of water-induced pruritus in patients with polycythemia vera is unknown. Evidence has been presented previously that bathing or showering may trigger mast cell degranulation and that release of a mediator by mast cells may be responsible for the pruritus. Tryptase is a specific marker of human mast cell secretory granules and its presence in body fluids indicates mast cell degranulation. In this study, serum tryptase levels were measured both before and one hour after showering in 11 patients suffering from polycythemia vera and water-induced pruritus. Tryptase was not found in the serum of any of the subjects one hour after showering, when levels would be expected to be near peak had significant mast cell degranulation occurred. These results argue against mass cell degranulation with systemic release of a mast cell product as the mechanism for water-induced pruritus in patients with polycythemia vera.
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PMID:Polycythemia vera and water-induced pruritus: evidence against mast cell involvement. 816 24

The pathogenesis of allergic rhinitis is complex, involving not only histamine and mast cell-derived tryptase, but also eosinophil- and neutrophil-derived mediators, cytokines, and intercellular cell adhesion molecules (ICAM-1). It is surprising that antihistamines, which block only one component of the process, have proved so effective in the management of allergic rhinitis. Research has therefore focused on whether antihistamines have additional pharmacological activities. In vitro studies have shown that high concentrations of second generation antihistamines can block inflammatory mediator release from basophils and mast cells, and reduce ICAM-1 expression in epithelial cell lines. In vivo studies have also shown an effect on the allergen-induced inflammatory reaction; both oral and intranasal antihistamines cause a reduction in nasal symptoms and inflammatory cell influx. Oral terfenadine and cetirizine and intranasal levocabastine and azelastine have also demonstrated a lowering of ICAM-1 expression on epithelial cells. With regard to clinical efficacy, topical levocabastine (0.5 mg/mL eye drop solution and 0.5 mg/mL nasal spray) was shown to be more effective than oral terfenadine (60 mg twice daily) in relieving ocular itch (P = 0.02) and reducing nasal symptoms in allergic rhinoconjunctivitis. In a further study, levocabastine eye drops were as effective and well tolerated as sodium cromoglycate in seasonal allergic rhinitis. Intranasal azelastine (0.28 mg twice daily) showed a trend for superior relief of rhinorrhoea and nasal obstruction compared with oral terfenadine (60 mg twice daily). In addition, intranasal azelastine (0.28 mg twice daily) resulted in significant reductions in sneezing, nasal obstruction, rhinorrhoea and itching in perennial rhinitis, compared with the lower efficacy of beclomethasone dipropionate (0.1 mg twice daily). As well as benefits in efficacy, topical administration is associated with improved safety. Some antihistamines, particularly those metabolized in the liver, are associated with occasional reports of severe side-effects. It is therefore logical to administer antihistamines directly to the target organ.
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PMID:Antihistamines: topical vs oral administration. 873 53

During the pollen season, quantitative determination of the chemical mediators and eosinophil count was performed in 16 patients with hay fever after nasal allergen challenge (NAC). The aim of this study was objectively to assess the effect of H1 and of a combination of H1 and H2 antagonists on nasal symptoms, mediator release, and eosinophil count during an allergic reaction. NAC was performed at baseline (V1), 2 weeks after treatment with cetirizine 10 mg/day (V2), and after a combined therapy with cetirizine 10 mg and cimetidine 800 mg a day during the following week (V3). Results showed a significant (p < 0.05 or p < 0.01) relief of nasal symptoms such as: itching, sneezing, rhinorrhea and congestion, and of objective parameter such as: reduction of the number of sneezes after NAC at V2 and V3. Neither H1 antagonist nor a combination of H1 and H2 antagonists showed any effect on eosinophilia and ECP concentration caused by natural allergen exposure, nor on histamine and tryptase release immediately after NAC. When a combination of H1 and H2 antagonists was administered significant reduction of the nasal airway resistance and increase of the nasal air flow were demonstrated.
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PMID:Effect of H1 and H2 antagonists on nasal symptoms and mediator release in atopic patients after nasal allergen challenge during the pollen season. 882 Mar 58

Quantitative determinations of the inflammatory mediators in nasal secretions were performed and correlated with the objective nasal symptoms within 1 h after nasal allergen challenge (NAC). Twenty-six patients with seasonal allergic rhinitis were enrolled outside the pollen season. All measurements were performed before (as a baseline control) and at 1, 5, 10, 30, and 60 min after NAC. This study aimed to clarify the pathogenic mechanism of the early-phase reaction (EPR) by monitoring the evolution of early-phase mediators in nasal secretions and the presence of nasal symptoms during this period. The results showed that, after NAC, the maximal mediator concentration was already reached after 1 min for histamine (124 ng/g), 5 min for tryptase (56 microU/g), and 5-10 min for leukotriene C4 (40 ng/g). Itching and sneezing started as early as 20-30 s, and they were predominant symptoms within 5 min. Rhinorrhea and nasal obstruction started a few minutes after NAC and lasted until more than 1 h after NAC. There was no significant correlation between any single mediator and nasal symptoms during the sampling period. In conclusion, this study demonstrated that during the EPR the presence of nasal symptoms involves a complex mechanism, reflecting the interaction between the mediators released by inflammatory cells, and the receptors on different target organs. When evaluating symptoms during the EPR, one must consider not only the severity of these symptoms but also the time period within which these symptoms occur. For the symptoms of nasal obstruction and rhinorrhea, the early-phase reaction often lasted more than 1 h.
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PMID:An approach to the understanding of the nasal early-phase reaction induced by nasal allergen challenge. 910 20

The currently available respiratory topical corticosteroids are all effective at reducing the nasal symptoms of itch, sneezing, rhinorrhoea and obstruction associated with allergic rhinitis. The mechanism of action of corticosteroids is related to their anti-inflammatory activities. They have been documented to prevent fluid exudation and reduce the number of circulating inflammatory cells, including lymphocytes, mast cells, basophils, eosinophils, macrophages, and neutrophils. This occurs through multiple mechanisms, e.g. eosinophil infiltration is suppressed by preventing cytokine production, reducing local mechanisms of tissue infiltration, and decreasing eosinophil survival. Furthermore, corticosteroids also reduce preformed and newly-generated mediators (e.g. histamine, tryptase, prostanoids, leukotrienes), and inhibit production of cytokines and chemokines by inflammatory cells (e.g. IL-1 through IL-6, IL-8, RANTES, TNF-alpha, IFN-gamma and GM-CSF). The currently available corticosteroids differ pharmacologically. Fluticasone propionate appears to have the greatest affinity for the glucocorticoid receptor, and binds more quickly and dissociates more slowly from the receptor compared with other corticosteroids, suggesting a more prolonged duration of action. Its increased specificity for respiratory tissue may lead to greater potency with less potential for systemic adverse effects. Fluticasone propionate has been compared with other corticosteroids in animal models for relative topical and systemic potency, and according to these data, it has the most favourable risk-benefit ratio.
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PMID:The pharmacological basis for the treatment of perennial allergic rhinitis and non-allergic rhinitis with topical corticosteroids. 921 61

Two assays have been done to evaluate the effect of immunotherapy in nasal allergy. First, a trial of nasal immunotherapy and second, the study of mediator release after vaccines. Local immunotherapy, applied directly, triggers different response mechanisms. Specific nasal immunotherapy started before seasonal or perennial symptoms peak, has been done by increasing the doses of allergen three times a week during a 3-month period and a manutention period of a weekly nasal puff of the same allergen. Symptom scores and drug consumption have been registered. The results have been compared with the scores obtained in the same patients over the same period of the same year before immunotherapy. In perennial rhinitis blockage, rhinorrea, sneezing and itching scores all decreased. In seasonal rhinitis, a similar score decrease was obtained for blockage, rhinorrea, sneezing and itching. Pharmacological scores also decreased. These data point to a short-term effect of nasal immunotherapy. Tryptase release has been evaluated in nasal washings after nasal challenge with a Parietaria (Pellitory wall) extract before and after specific systemic immunotherapy, in order to evaluate changes in mast cells reactivity. Eight patients were studied, all allergic to Parietaria. Nasal provocation tests have been done before the season with increasing doses of 10, 100 and 1000 PNU and tryptase assayed in nasal washings at 10, 20 and 30 min after provocation. Immunotherapy decreased tryptase release after nasal challenge. The data point to the effect of systemic specific immunotherapy on mast cell reactivity.
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PMID:Local and systemic immunotherapy in nasal allergy. 1057 7

This paper reviews our previous studies on an objective evaluation of nasal symptoms, a quantitative determination of biochemical mediators, and inflammatory cells in nasal secretions of atopic patients after nasal allergen challenge (NAC) and during natural allergen exposure. The use of the microsuction technique has proved to be a useful and reliable nasal sampling method permitting quantitative analysis of important mediators in nasal secretions. This has provided accurate data on the activity of some important inflammatory cells such as mast cells, basophils, and eosinophils in allergic rhinitis. Our studies demonstrate that a significant increase in the concentrations of histamine, tryptase, and LTC4 in nasal secretions occurs within seconds or minutes after NAC, and this is accompanied by itching, sneezing, rhinorrhea, and nasal obstruction. The infiltration and activation of eosinophils are found to be the predominant condition during the late-phase reaction (LPR), which is mainly characterized by unilateral and/or bilateral nasal obstruction with little sneezing and rhinorrhea. The latter condition is found to be very much similar to the pathophysiology of patients with ongoing allergic rhinitis. In conclusion, our studies demonstrate that patients with ongoing allergic rhinitis seem to be in a continuous late phase state of eosinophilia and increased mediator release, a condition that can explain priming and nonspecific hyperreactivity of the nasal mucous membrane.
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PMID:Pathogenic mechanisms underlying the clinical symptoms of allergic rhinitis. 1106 58


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