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)

Angioedema/urticaria secondary to ACE inhibitor drugs is an important clinical entity, which dermatologists should be aware of as they are so widely used and their use will undoubtedly increase. In addition to the obvious importance to the patient of promptly recognizing ACE inhibitor angioedema, uncovering the etiology of angioedema/urticaria is a rare and satisfying experience that can "make your day."
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PMID:The Fine Page: angiotensin converting enzyme angioedema. 844 May 68

Arterial hypertension is a major risk factor for microangiopathic diabetic complications and associated with an increased cardiovascular morbidity and mortality. An intensified antihypertensive treatment reduces microangiopathic complications and cardiovascular morbidity and mortality in diabetic patients. Even in normotensive type 1 and type 2 diabetic patients, the treatment with ACE inhibitors may prevent the later development of diabetic nephropathy. Treatment with ACE inhibitors increases the concentrations of bradykinin, which is responsible for the side effects such as cough and urticaria in some patients. On the other hand, bradykinin may have beneficial intrarenal effects decreasing the intraglomerular pressure. The novel angiotensin II receptor type 1 antagonists do not influence the bradykinin concentrations and seem to be tolerated by patients suffering from chronic cough with ACE inhibitor therapy. It is still unclear whether the different intrarenal effects are of clinical relevance in the long-term treatment of diabetic patients. In studies with diabetic animals the nephroprotective effects of ACE inhibitors and angiotensin II type 1 receptor antagonists are comparable. It was shown that glucose and lipid metabolism is not influenced by treatment with angiotensin II type 1 receptor antagonists. Further compared to Felodipine the reduction of urinary albumin excretion rate (UAER) was more pronounced by Losartane in Chinese type 2 diabetic patients. Short-term studies directly comparing the renal effects of ACE inhibitors with AT II type 1 receptor antagonists revealed similar reduction of blood pressure and albumin excretion rate in patients with diabetic nephropathy, so a combination of both substances might be useful. Data from ongoing long-term trials are still missing. Further, it is unknown whether different phenotypes of the ACE gene (DD, II polymorphism) require different therapeutic options. In conclusion, treatment with angiotensin II receptor antagonists is well-tolerated and has no adverse effects on metabolic control in diabetic patients. The beneficial effect on microangiopathic complications however has to be proven in randomized long-term studies in direct comparison with ACE inhibitors, which were clearly shown to delay the development and progression of diabetic nephropathy.
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PMID:[Angiotensin II type-1 receptor antagonists and diabetes mellitus]. 1145 Jan 65

Angioedema without urticaria is a clinical syndrome characterised by self-limiting local swellings involving the deeper cutaneous and mucosa tissue layers. Most occurrences of angioedema respond to treatment with a histamine H1 receptor blocker (antihistamine) because they are an allergic or parallergic reaction. A small number of cases do not respond to antihistamine treatment. Such cases tend to occur in patients with deficiency or dysfunction of the inhibitor of the first component of the complement (C1-INH), but more rarely can occur in patients with other conditions and as an adverse drug reaction. Angioedema is well documented in patients taking ACE inhibitors. Considering that 35 to 40 million patients are treated worldwide with ACE inhibitors, this drug class could account for several hundred deaths per year from laryngeal oedema. ACE inhibitors certainly do not mediate angioedema through an allergic or idiosyncratic reaction. For this reason the relationship with this drug is often missed and consequently quite underestimated. Rare instances of angioedema have also been reported with angiotensin II receptor antagonists. This adverse effect seems to occur less frequently with angiotensin II receptor antagonists than with ACE inhibitors. However, we do not know whether this adverse effect has the same mechanism with the 2 classes of medications. Some cases of severe angioedema have been recently reported after treatment with fibrinolytic agents. Scattered reports suggest the possibility of angioedema associated with the use of estrogens, antihypertensive drugs other than ACE inhibitors, and psychotropic drugs. Angioedema can also occur with nonsteroidal anti-inflammatory drugs. Prevention of angioedema relies first on the patient history. Estrogen and ACE inhibitors should be avoided in a patient with congenital or acquired C1-INH deficiency. In the case of ACE inhibitors, the appearance of angioedema following long term treatment does not lessen the probability that such an agent could be the cause. The most important action to take in a patient with suspected drug-induced angioedema is to discontinue the pharmacological agent. Epinephrine (adrenaline), diphenydramine and intravenous methylprednisolone have been proposed for the medical management of airway obstruction, but so far no controlled studies have demonstrated their efficacy. If the acute airway obstruction leads to life-threatening respiratory compromise an emergency cricothyroidotomy must be performed.
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PMID:Drug-induced angioedema without urticaria. 1148 Apr 92

This case presented the scenario of a patient who had severe bronchospasm from an unknown etiology. Further, she had difficulty speaking and denied any past medical history, which made a diagnosis more difficult. Prehospital providers were challenged with determining the differential diagnosis for bronchospasm and hypoxemia. Was the patient experiencing an anaphylactic reaction, acute asthmatic attack or something else? The key here, once again, is conducting a thorough assessment and patient history. Remember, all that wheezes is not asthma; therefore, providers in this case had to determine if the patient was suffering something such as anaphylaxis, asthma, bronchitis, pneumonia or even congestive heart failure (CHF). Typically, anaphylaxis and asthma affect ventilation, not oxygenation, so until the late stages of anaphylaxis or asthma, the patient will have difficulty moving air, but will be oxygenating OK. We understand that many respiratory conditions can cause wheezing, but CHF? Yes: As left ventricular function diminishes and leads to increased pulmonary pressure, serum begins to leak out of the pulmonary vessels and into the interstitial space. As the interstitial pressure increases, it causes narrowing of the bronchioles, and air traveling through the narrowed bronchioles causes the wheezing sound. Fluid may also be leaking out of the pulmonary capillaries and occupying space in the alveolar sacs. When the interstitial pressure is high and the bronchioles continue to narrow, providers may initially hear only the wheezing and not the crackles from the smaller airways. In these conditions, oxygen is not exchanged adequately into the blood, and the patient becomes hypoxemic. Good assessment and patient history will guide the EMS provider to the cause of bronchospasm. For example, does the patient have a history of asthma? If yes, asthma is likely to be the cause. Does the patient have any rash, hives or swelling? If yes, anaphylaxis is likely the cause. Is the patient elderly, and does he/she show pedal edema, JVD, hypoxemia and/or distended neck veins? If yes, CHF may be the cause. [table: see text] There are questions regarding the use of bronchodilators in patients suffering CHF. If a CHF patient is wheezing (bronchospasm), then a beta-2 selective breathing treatment may be appropriate, along with nitrates and diuretics. Oxygenation is the critical problem in CHF, and hypoxemia will continue to worsen cardiac function. Remember, both bronchoconstriction and alveolar sacs filling with fluid will impair oxygenation of the RBCs and ultimately the vital organs. Focused prehospital management of CHF is aggressive in restoring oxygenation. For example, many agencies are now using oxygen, nitrates, ACE inhibitors and CPAP. By better understanding the pathophysiology of respiratory emergencies and their differential diagnosis, we will improve patient outcomes.
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PMID:Breathless. 1196 14

Urticaria, angioedema, etc., and cross-reactions with ACE inhibitors.
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PMID:Cutaneous adverse effects of angiotensin-II receptor antagonists. 1732 83

Angioedema can be a symptom of anaphylaxis; it may be more hazardous that the circulatory collapse in otherwise healthy patients. Angioedema can be part of IgE- and histamine-mediated allergic reactions or part of NSAID-induced hypersensitivity with disturbances in arachidonic acid metabolism. If angioedema occurs without urticaria or other symptoms of anaphylaxis, it is usually mediated by increased bradykinin synthesis (HANE, EANE) or reduced metabolism (ACE inhibitors). These observations have led to new therapeutic approaches in HANE. Icatibant is a bradykinin-receptor-2 antagonist and blocks bradykinin-induced angioedema in HANE. How applicable this will be to ACE-inhibitor angioedema remains to be seen.
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PMID:[Angioedema]. 1800 29

Angioedema is a frequent disorder with multiple aetiologies. Angioedemas associated with urticaria are usually caused by histamine release and respond to anti-histamines and adrenalin. They include allergic angioedemas, anaphylactoid reactions (mostly drug-induced, e.g. NSAID), physical angioedemas and recurrent idiopathic angioedema. Bradykinin probably plays a causative role in the pathogenesis of ACE-inhibitor or angiotensin II receptor blocker related angioedemas, as well as in the pathogenesis of the rare hereditary or acquired C1-inhibitor deficiency angioedemas. Urticaria is then typically absent and anti-histamines, as well as adrenalin, are ineffective.
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PMID:[The multiple etiologies of angioedema]. 1855 32

Urticaria, a perplexing disease of ever-changing explanations, is being renovated almost everyday by newer facts and findings accumulated from different parts of the globe. Cost of the urticaria treatment gradually grows higher and higher whereas the ailment disturbs the quality of life very adversely. Disorder of coagulation cascade has recently thrown some new light into its mechanism. Non-allergic angioedema induced by bradykinin caused by genetic defects and ACE-inhibitors has also been noted. Role of H. pylori in the pathogenesis of urticaria has also been re-reviewed. Urticaria could sometimes mimic erythema multiforme and is termed urticaria multiforme. Skin biopsy showed features of vasculitis in good number of urticaria irrespective of clinical features. Contact sensitization showed positive results in certain cases thus proving contact urticaria. Topical clobetasol, systemic omalizumab and NB UVB have shown promising results in certain forms of urticaria.
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PMID:What'S new in urticaria? 2016 64

Angio-oedema and urticaria can be symptoms of both allergic (IgE-mediated) and non-allergic drug hypersensitivity reactions. Non-allergic drug reactions, that may have a similar clinical presentation as allergic drug reactions, are not caused by an IgE-mediated immune mechanism. Because of unfamiliarity with non-allergic drug reactions and the unclear time course between drug use and reactions, the relationship with the responsible drug is often not recognized, leading to unnecessary patient risks. In the present article three patients with angio-oedema and urticaria as side effects of frequently used drugs (ACE-inhibitors, NSAIDs and betalactams) are presented and discussed. Patient A was a 69-year-old man with ACE-inhibitor induced angio-oedema. Patient B was a 40-year-old woman with urticaria and angio-oedema after ingestion of a NSAID caused by a non-allergic drug reaction. Patient C was a 54-year-old woman who developed an anaphylactic shock because of a type I allergy to betalactams.
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PMID:[Angio-oedema and urticaria as side effects of frequently used drugs]. 2071 7

Antimicrobials and anti-inflammatories are the most common drugs causing skin reactions, but reactions are also brought about by ACE inhibitors, antiepileptics, many anticancer and certain other drugs. Exanthema and urticaria are the most common types of drug reactions. Urticaria may or may not be accompanied by angioedema or anaphylaxia. Possible life-threatening drug reactions include also toxic epidermal necrolysis, Stevens-Johnson syndrome and eosinophilia with systemic symptoms. A drug reaction resembles a typical allergic reaction. Diagnosis is based on the clinical picture and anamnesis.
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PMID:[Drug-induced skin reactions]. 2149 51


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