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Query: EC:3.4.15.1 (
ACE
)
18,300
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The occurrence of a dry, nonproductive cough during
ACE
inhibitors therapy has been described in several reports. However, the mechanism of this effect is still unknown. In order to clarify whether
ACE
inhibitor-induced cough is a symptom of an asthmatic disturbance, six patients (age 54-68) with cough related to captopril or enalapril were rechallenged with
ACE
inhibitors after an adequate washout period. Baseline airway function and bronchial reactivity to metacholine were measured at the end of the washout period and on the fourth day of rechallenge which was accompanied by the reappearance of cough without
wheezing
. Rechallenge did not cause changes in dynamic lung function; a low and not significant (p less than 0.1) increase in metacholine dose causing a 15% and a 20% reduction in baseline FEV 1 was observed. It is concluded that cough and bronchoconstriction are likely to be mediated through different nervous pathways and that
ACE
inhibitor-induced cough is not a variant of asthmatic cough.
...
PMID:[Bronchial reactivity and cough due to ACE inhibitors]. 207 84
In non-smokers the underlying causes for chronic persistent cough (CPC) e.g. chronic cough without diagnostic chest X-ray or pulmonary function test--are usually as follows: several common upper airways diseases, bronchial (cough type) asthma, gastrooesophageal reflux or treatment with an
ACE
(
angiotensin converting enzyme
)--inhibitor. In 10% of CPC however the cause remains uncertain. We report a 30 year old non-smoker with severe coughing and repeated vomiting for two months. No laboratory or technical data could be collected suggestive of a common cause of CPC: Upper airways disease, bronchial flow limitation or hyperresponsiveness,
ACE
inhibitor medication, B. pertussis infection, gastrooesophageal reflux disease (by 24 hours pH-probe) were ruled out. Fiberbronchoscopic findings remained unremarkable, except for the bronchial biopsy specimen, which showed moderate eosinophilic inflammation of the mucosa and marked thickening of the subepithelial layer. Since the cough was non-productive, sputum induction with 3 ml nebulised 3% NaCl solution was performed. 28% of the granulocytes were eosinophil stained. A low quality morning sputum (< 1 ml) showed 21% eosinophilia. Thus, the diagnosis of eosinophilic bronchitis was established. 400 micrograms budesonide dry powder inhalations b.i.d. for one week resolved the cough, treatment was stopped after three weeks. No recurrence was seen two months later. Both the cough type asthma and the eosinophilic bronchitis could represent a form fruste of classical bronchial asthma beyond
wheezing
or dyspnoea, but with the common main symptom: cough. Since hyperresponsiveness and cough are phenotypic hallmarks of cough variant asthma, in eosinophilic bronchitis--beside cough--another two features of asthma are present: eosinophilic inflammation of the mucosa along with sputum eosinophilia and subepithelial layer thickening. Not surprisingly, eosinophilic bronchial inflammation could be shown in patients with cough variant asthma as well, who--up to 56% during a four year-period--develop classic asthma. The long-term outcome of eosinophilic bronchitis is not known, however. Thus, asthma, cough variant asthma and cough due to eosinophilic bronchitis can mirror different phenotypes or phases of the same entity. CPC due to either the cough type asthma or the eosinophilic bronchitis is like asthma fast responding to inhalative steroids. (Induced) sputum staining should be added to the diagnostic armamentarium of CPC.
...
PMID:[Eosinophilic bronchitis without asthma--an additional rare cause for chronic persistent cough (CPC)? A 30-year old patient with severe CPC due to eosinophilic bronchitis without asthma or hyperreactivity]. 1144 11
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.
...
PMID:Breathless. 1196 14
The aim of the study was to determine incidence, features and outcomes of the adverse drug reactions (ADR) among emergency department (ED) visits of S. Giovanni Battista Hospital in Turin. We evaluated 16.055 patients among ED visits in a period of five months; the mean age was 59.6 +/- 20.2 year (range 17-93 y; 8.054 women and 8.001 men); 426 (2.6%) had ADRs, and 91 (21.4%) were admitted to the hospital. In multivariate analysis only the number of medicines was positive correlated with ADR. The drugs most frequently ADR-related were: anticoagulants (21.8%), antibiotics (17.6%), NSAIDs (9.9%), hypoglycaemic agents (9.6%),
ACE
-inhibitors (4.7%), antipyretics (4%) and alfa-litics (3.3%); the most common clinic events were: gastrointestinal bleeding (21.1%), rash (19.7%), confusion (23.9%), hypoglycaemia (8.4%), dyspnoea (7.0%), syncope and
wheezing
(5.6%), gastrointestinal bleeding (2.8%), anaemia (2.8%), haematomas (4.2%), vomiting (4.2%). Factor associated with increased ADR-hospital admission were increasing age (over 65 years old), gastrointestinal diseases, dementia and ADL-dependence. ADR-patients' Emergency Department mortality was higher than noADR-patients' one. The mean duration of hospitalization was higher in ADR-patients. It is necessary to reduce the number of drugs and improve studies and prevention strategies targeted to reduce the impact of ADR, specially in the elderly population.
...
PMID:[Adverse drug reactions as cause of visit to the emergency department: incidence, features and outcomes]. 1691 73
Occupational exposure to silica dust has been increasing the possible risk of varieties of pathologies. The aim of this study was to evaluate the protective activity of ethanolic extract of Glycyrrhiza glabra roots at doses of 500 and 1000 mg/kg, p.o., given for 7 days against the toxicity of SiO(2) nanoparticles (50mg/kg intraperitoneal for 6 weeks) in rats. Exposure to silica altered various respiratory and biochemical variables, including ALT, AST, albumin, urea, uric acid, creatinine, catalase, LPO and GSH. Treatments with G. glabra extract significantly improved antioxidant status towards control. Stone workers in the Gwalior region exposed to silica dust had higher prevalence of cough,
wheezing
and shortness of breath. Increased serum
ACE
level was noted in the silica exposed group. It is of immense need to monitor this problem for betterment of worker's health.
...
PMID:Therapeutic associated with occupational exposure to silica. 2257 38
