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:C0042109 (urticaria)
6,569 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Histamine released from dermal mast cells plays a central role in the increased vascular permeability in acute urticaria, and administration of anti-histamines usually suppresses development of wheals. Acute idiopathic urticaria, particularly a severe case, occasionally presents with acute inflammatory reactions such as low-grade fever and leukocytosis and is resistant to anti-histamines. Considering the wide spectrum of proinflammatory cytokines and chemokines that can be released from activated mast cells, some of them might be involved in the pathogenesis of urticaria. We measured plasma levels of interleukin-6 (IL-6), interleukin-8 (IL-8), and tumor necrosis factor-alpha (TNF-alpha) in 16 cases of severe acute urticaria. None of them showed elevated plasma levels of IL-8 or TNF-alpha. Nine out of 16 acute urticaria patients showed elevated circulating IL-6 with concomitant increases in serum CRP levels. All such patients were resistant to conventional anti-histamine treatment and required systemic steroids for complete suppression of wheal development. After subsidence of the urticaria, their elevated IL-6 and CRP levels dropped to their normal ranges. In contrast, all but one patient without elevated circulating IL-6 was successfully treated with a H1 receptor antagonist, cetirizine. The data suggest involvement of IL-6 in the pathogenesis of severe acute urticaria that is resistant to anti-histamines.
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PMID:Acute urticaria with elevated circulating interleukin-6 is resistant to anti-histamine treatment. 1143 61

Histamine-1 (H1) antihistamines are the first-line drug for the treatment of urticaria. Major progress has been achieved in recent years both in the understanding of their ligands, the H1-histamine receptors, and therefore in the mechanisms of their pharmacologic effects, as well as in the development of safer antihistamines with low or no sedating effects and no interactions on the level of potassium channels leading to QT-prolongations and interactions on the level of cytochrome P450 isoenzymes. This development has brought antihistamines very close to the ideal antihistamines that are desired by clinicians to treat most types of urticaria in patients who have to take these drugs for a long time.
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PMID:Standard treatment: the role of antihistamines. 1176 6

In origin, itch can be cutaneous ("pruritoceptive", e.g. dermatitis), neuropathic (e.g. multiple sclerosis), neurogenic (e.g. cholestasis), mixed (e.g. uraemia) or psychogenic. Although itch of cutaneous origin shares a common neural pathway with pain, the afferent C-fibres subserving this type of itch are a functionally distinct subset: they respond to histamine, acetylcholine and other pruritogens, but are insensitive to mechanical stimuli. Histamine is the main mediator for itch in insect bite reactions and in most forms of urticaria, and in these circumstances the itch responds well to H(1)-antihistamines. However, in most dermatoses and in systemic disease, low-sedative H(1)-antihistamines are ineffective. Opioid antagonists relieve itch caused by spinal opioids, cholestasis and, possibly, uraemia. Ondansetron relieves itch caused by spinal opioids (but not cholestasis and uraemia). Other drug treatments for itch include rifampicin, colestyramine and 17-alpha alkyl androgens (cholestasis), thalidomide (uraemia), cimetidine and corticosteroids (Hodgkin's lymphoma), paroxetine (paraneoplastic itch), aspirin and paroxetine (polycythaemia vera) and indometacin (some HIV+ patients). If the remedies specified fail, paroxetine and mirtazapine should be considered. Ultraviolet B therapy, particularly narrow-band UVB, may be superior to drug treatment for itch in uraemia.
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PMID:Itch: scratching more than the surface. 1265 79

Beta-lactams are the antibiotics which most frequently provoke adverse reactions mediated by specific immunological mechanisms. These reactions, classifiable as immediate or non-immediate, can be produced by the four classes of beta-lactams (penicillins, cephalosporins, carbapenems and monobactams) currently available, which share a common beta-lactam ring structure. Immediate reactions occur within the first hour after drug administration and are characterized by urticaria, angioedema, rhinitis, bronchospasm, and anaphylactic shock. Immediate reading skin tests are the quickest and most reliable method for demonstrating the presence of beta-lactam specific IgE antibodies. It is crucial to use in diagnosis the suspected beta-lactams themselves, particularly cephalosporins, in addition to penicillin determinants. Serum specific IgE assays can be used as complementary tests. Negative test results should be interpreted in light of the time elapsed from the last exposure to the responsible beta-lactam. In fact, both in vivo and in vitro test sensitivity is known to decrease over time. In some diagnostic work-ups, patients with a positive history and negative skin and in vitro tests with classic reagents undergo a controlled administration of the suspected beta-lactam. The management of immediate allergic reactions should take into consideration their severity and type. Adrenaline is the drug of choice in the treatment of anaphylactic shock. In addition to adrenaline, corticosteroids and antihistamines should be administered. Histamine H(1) receptor antagonists are the mainstay of the treatment of immediate allergic reactions such as urticaria, rhinitis and conjunctivitis.
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PMID:Immediate allergic reactions to beta-lactams: diagnosis and therapy. 1257 27

Acquired cold urticaria is an infrequent physical urticaria that can provoke severe systemic reactions. Histamine is the primary mediator, but leukotrienes are also involved in the pathogenesis. H(1) antihistamines are recommended as first-choice treatment, but their efficacy is sometimes unsatisfactory. On the basis of pathogenic knowledge, it can be hypothesized that a combination therapy with antihistamines and leukotriene receptor antagonists is more effective than each drug given alone. We tested this hypothesis in 2 patients with severe systemic cold urticaria poorly responsive to conventional therapy. The patients underwent 3 consecutive treatment regimens (each of 2 weeks): cetirizine (10 mg once a day); zafirlukast (20 mg twice a day); and their combination. They were clinically evaluated, after each regimen, by means of a visual analog scale and ice-cube test. The combination therapy was superior to the 2 drugs given alone, as testified by subjective and objective evaluations.
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PMID:Treatment of acquired cold urticaria with cetirizine and zafirlukast in combination. 1451 23

Histamine is an important chemical mediator of inflammation, vasodilation, increased vascular permeability, decreased peripheral resistance, airway smooth muscle contraction, and sensory nerve stimulation causing itching. It also plays a significant role in neurotransmission and in cardiac function. In allergic rhinoconjunctivitis and urticaria, there is strong evidence for the role of H(1)-antihistamine treatment. In asthma, additional dose-response studies, including higher doses of antihistamines than those used in allergic rhinitis, are needed to determine the role of antihistamines. In atopic dermatitis, the itch-relieving topical glucocorticoid-sparing effects of H(1)-antihistamines also require further documentation. The potential benefits of each H(1)-antihistamine should be weighed against the potential risks, and second-generation H(1)-antihistamines with excellent, well-documented safety records should be used in preference to older, less safe H(1)-antihistamines. Second-generation H(1)-antihistamines are more relevant than ever in the treatment of allergic disorders.
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PMID:H1-Antihistamines: more relevant than ever in the treatment of allergic disorders. 1453 Jul 88

Histamine is a primary mediator in allergic response and acts in concert with other agents to impact disease progression. Respiratory disorders such as asthma, rhinitis and dermatological conditions such as urticaria involve histamine along with other mediators. An antihistamine that possesses an additional property of counteracting the effects mediated by these other mediators should offer some therapeutic benefit over a selective antihistaminergic agent.
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PMID:Dual acting antihistaminergic agents. 1554 53

Histamine is released from mast cells in the skin, causing urticaria and itching. However, little is known about the roles of histamine in development of eczematous lesions in contact dermatitis. Effects of histamine on development of eczematous lesions in contact dermatitis were assessed using histamine-deficient mice in which contact dermatitis was developed by repeated application of diphenylcyclopropenone. Development of eczematous lesions in contact dermatitis was suppressed in histamine-deficient mice compared to wild-type mice. H(1) agonist ((6-12-(4-imidazol)ethylamino)-N-(4-trifluoro- methylphenyl)hepatanecarboxamide) promoted development of eczematous lesions in histamine-deficient mice. H(1) receptor antagonist (loratadine) suppressed development of eczematous lesions in wild-type mice, whereas H(2) agonist (dimaprit) and receptor antagonist (cimetidine) were ineffective. These results suggest that histamine facilitates the development of eczematous lesions in a murine model of contact dermatitis via H(1) receptors.
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PMID:Histamine helps development of eczematous lesions in experimental contact dermatitis in mice. 1590 80

Histamine plays a central role in allergic responses. Inhibition of the weal and flare response to histamine is a traditional pharmacodynamic tool to measure the activity of H(1)-receptor antagonists. The time course and duration of cutaneous weal and flare inhibition are often used as surrogate measures of clinical efficacy. Pharmacodynamic differences among antihistamines are often interpreted to indicate differences in clinical efficacy. A systematic review of literature from 1980 to 2006 regarding the histamine induced weal and flare was undertaken. Search terms included 'histamine', 'skin test', 'weal', 'flare', and 'antihistamine'; retrieved articles were searched for relevant studies not identified initially. Data from human studies on the inhibition of the weal and flare by second-generation antihistamines were extracted and assessed. A literature search from 1980 to 2006 was undertaken for comparative studies of second-generation antihistamines in the clinical settings of allergic rhinitis (AR) and chronic idiopathic urticaria; data extracted from these studies underwent systematic review. Differences were noted among second-generation antihistamines in terms of their ability to inhibit the histamine-induced weal and flare. Corresponding differences in terms of clinical efficacy in AR and chronic urticaria were not identified following a systematic review. The reasons for the disconnect between pharmacodynamic effects and clinical efficacy may include differences between the route and concentration of histamine, the involvement of mediators other than histamine in the allergic response, and the short time course of pharmacodynamic studies. The histamine-induced weal and flare response is a pharmacodynamic test that should not be used to compare the clinical efficacy of different antihistamines, and is not an adequate alternative to clinical end-point assessments in AR or chronic idiopathic urticaria.
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PMID:Inhibition of the histamine-induced weal and flare response: a valid surrogate measure for antihistamine clinical efficacy? 1735 90

Histamine intolerance results from a disequilibrium of accumulated histamine and the capacity for histamine degradation. Histamine is a biogenic amine that occurs to various degrees in many foods. In healthy persons, dietary histamine can be rapidly detoxified by amine oxidases, whereas persons with low amine oxidase activity are at risk of histamine toxicity. Diamine oxidase (DAO) is the main enzyme for the metabolism of ingested histamine. It has been proposed that DAO, when functioning as a secretory protein, may be responsible for scavenging extracellular histamine after mediator release. Conversely, histamine N-methyltransferase, the other important enzyme inactivating histamine, is a cytosolic protein that can convert histamine only in the intracellular space of cells. An impaired histamine degradation based on reduced DAO activity and the resulting histamine excess may cause numerous symptoms mimicking an allergic reaction. The ingestion of histamine-rich food or of alcohol or drugs that release histamine or block DAO may provoke diarrhea, headache, rhinoconjunctival symptoms, asthma, hypotension, arrhythmia, urticaria, pruritus, flushing, and other conditions in patients with histamine intolerance. Symptoms can be reduced by a histamine-free diet or be eliminated by antihistamines. However, because of the multifaceted nature of the symptoms, the existence of histamine intolerance has been underestimated, and further studies based on double-blind, placebo-controlled provocations are needed. In patients in whom the abovementioned symptoms are triggered by the corresponding substances and who have a negative diagnosis of allergy or internal disorders, histamine intolerance should be considered as an underlying pathomechanism.
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PMID:Histamine and histamine intolerance. 1749 Sep 52


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