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:C0034067 (emphysema)
11,506 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The healthy or previously damaged pulp responds to most of the drugs currently applied to the dentin with an inflammatory reaction. By means of a standardized biological screening test, the modes of action of hydrogen peroxide and of Falikain preparations are demonstrated on the pulp of the rat incisor. Hydrogen peroxide produces an emphysema of the pulp tissue associated with a slowing of the circulation and partly irreversible capillary stases, whereas Falicain compound preparations (Falicid, Myrex) cause, by way of haemolysis, injuries involving entire areas of the pulp. For this reason, hydrogen peroxide should not be used for cleaning cavities. Myrex is well suited for symptomatic treatment to relieve pain, if removal of the inflamed pulp ensues.
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PMID:[Reactions of the pulp-dentin system to drugs]. 106 48

This review compares and contrasts the chemistry of cigarette smoke, wood smoke, and the smoke from plastics and building materials that is inhaled by persons trapped in fires. Cigarette smoke produces cancer, emphysema, and other diseases after a delay of years. Acute exposure to smoke in a fire can produce a loss of lung function and death after a delay of days or weeks. Tobacco smoke and the smoke inhaled in a burning building have some similarities from a chemical viewpoint. For example, both contain high concentrations of CO and other combustion products. In addition, both contain high concentrations of free radicals, and our laboratory has studied these free radicals, largely by electron spin resonance (ESR) methods, for about 15 years. This article reviews what is known about the radicals present in these different types of smokes and soots and tars and summarizes the evidence that suggests these radicals could be involved in cigarette-induced pathology and smoke-inhalation deaths. The combustion of all organic materials produces radicals, but (with the exception of the smoke from perfluoropolymers) the radicals that are detected by ESR methods (and thus the radicals that would reach the lungs) are not those that arise in the combustion process. Rather they arise from chemical reactions that occur in the smoke itself. Thus, a knowledge of the chemistry of the smoke is necessary to understand the nature of the radicals formed. Even materials as similar as cigarettes and wood (cellulose) produce smoke that contains radicals with very different lifetimes and chemical characteristics, and mechanistic rationales for this are discussed. Cigarette tar contains a semiquinone radical that is infinitely stable and can be directly observed by ESR. Aqueous extracts of cigarette tar, which contain this radical, reduce oxygen to superoxide and thus produce both hydrogen peroxide and the hydroxyl radical. These solutions both oxidize alpha-1-proteinase inhibitor (a1PI) and nick DNA. Because of the potential role of radicals in smoke-inhalation injury, we suggest that antioxidant therapy (such as use of an inhaler for persons brought out of a burning building) might prove efficacious.
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PMID:Biological effects of cigarette smoke, wood smoke, and the smoke from plastics: the use of electron spin resonance. 133 34

An unusual case of pneumomediastinum caused by subcutaneous emphysema occurring after the use of hydrogen peroxide solution during root canal treatment is described in a 30-year-old man. A thorough search of the available literature failed to reveal similar cases. A review of the literature, including pathogenesis, clinical and radiographic features, and management of this condition, is presented.
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PMID:Iatrogenic pneumomediastinum after endodontic therapy. 204 5

We report the case of a 72-yr-old man who suffered from severe chronic emphysema with poor pulmonary function, and who had advanced cancer of the stomach. Proton beam radiotherapy was applied to the lesion, since surgery was contraindicated. The total dose to the stomach lesion was 61 Gy in 7 wk. The tumor on the stomach regressed, with flattening of the round wall of the lesion. The reactive changes of the proton beam radiotherapy, based on the histopathological examination, revealed extensive tumor necrosis and sparing of vital architecture of normal tissue around the irradiated tumor tissue. Only small clusters of vital or devitalized tumor cells with less than approximately 5% of the whole tumor tissue remained after treatment. We suggest that a high dose of radiation delivered by well-defined proton field could result in an improved therapeutic outcome without undue risk of injury to normal tissue.
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PMID:Advanced carcinoma of the stomach treated with definitive proton therapy. 215 30

Cigarette smoke can inactivate the alpha-1-proteinase inhibitor (alpha 1PI) by oxidative mechanisms and thus predisposes to the development of pulmonary emphysema. There are differences between the whole smoke and gas phase acting as alpha 1PI inactivators in vitro which suggests that the whole smoke is less oxidizing than the gas phase. Also studies on alpha 1PI oxidative inactivation in the lung of cigarette smokers gave controversial results. The reductive properties of cigarette tar which contains most of smoke nicotine may be some explanation of it. Therefore in this study we have investigated the effect of nicotine (0.4 mumol/l to 4 mmol/l) on the oxidative inactivation of human alpha 1PI by phorbol myristate acetate-activated polymorphonuclear leukocytes (PMNL), chloramine-T (15 mumol/l), hydrogen peroxide (15 mmol/l) and the superoxide radical (O2-.) generating system-xanthine (0.2 mmol/l)-xanthine oxidase (80 U/l). Nicotine at concentrations of greater than 40 mumol/l protected alpha 1PI from stimulated PMNL. The preincubation of PMNL with these concentrations of nicotine did not diminish their ability to inactivate alpha 1PI after stimulation. Nicotine (above 0.4 mumol/l) also protected alpha 1PI from chloramine-T but not from H2O2. The inhibition of O2-.-mediated alpha 1PI inactivation by nicotine was low and was observed only at a concentration of 4 mmol/l. This nicotine concentration did not affect xanthine oxidase activity. It is suggested that cigarettes with low nicotine contents can cause greater oxidative lung injury than their high nicotine counterparts and be a greater risk factor for the development of lung emphysema.
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PMID:Nicotine inhibits alpha-1-proteinase inhibitor inactivation by oxidants derived from human polymorphonuclear leukocytes. 216 36

Coal miners develop focal emphysema characterized by dilatation of second- and third-order respiratory bronchioles with coal mine dust-laden macrophages infiltrating the wall. A reticulin network with small amounts of collagen and atrophy of smooth muscle occurs. To evaluate the mechanisms of lung injury associated with this lesion, 17 long-term non- or ex-smoking West Virginia underground coal miners underwent bronchoalveolar lavage (BAL) and were compared to healthy nonsmoker and smoker controls. The coal miners had evidence of an alveolar macrophage-neutrophil alveolitis with a significant increase in neutrophils/microliter of epithelial lining fluid and an increased gallium lung scan index (206 +/- 26 units). Alveolar macrophages lavaged from coal miners spontaneously released exaggerated amounts of superoxide anion and hydrogen peroxide in vitro compared to nonsmoking controls. Coal workers had significantly elevated levels of neutrophil elastase in BAL fluid complexed with alpha 1-antitrypsin (P less than 0.01) and normal levels of alpha 1-antitrypsin. An accumulation of activated, dust-laden inflammatory cells with increased release of oxidants and elastase may contribute to the development of focal emphysema identified at postmortem in miners with coal workers' pneumoconiosis.
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PMID:Basic mechanisms leading to focal emphysema in coal workers' pneumoconiosis. 222 76

Chronic exposure to several types of mineral dust particles induces an inflammatory reaction in the lung. Dust particles activate alveolar macrophages and prime leukocytes (neutrophils, eosinophils, and basophils), leading to an enhanced release of reactive oxygen species. Sometimes mineral dust particles also contain radicals. Reactive oxygen species (superoxide anion radical, hydrogen peroxide, hydroxyl radical, and singlet oxygen) may lead to tissue damage. These are able to break DNA strands, to destroy proteins, and to induce the process of lipid peroxidation. The effects of oxygen radicals on the beta-adrenergic and muscarinic receptor response of the guinea pig and rat tracheal strip are described. The beta-adrenergic receptor response appeared to be more susceptible to oxidative stress than the muscarinic receptor response. This may lead to an autonomic imbalance on exposure to oxygen radicals. The lipid peroxidation product 4-hydroxy-2,3-trans-nonenal diminished the beta-adrenergic responsiveness in guinea pig tracheal preparations. Histologic examinations indicated that at low concentrations of cumene hydroperoxide (10(-4) M) the epithelial layer of rat trachea was already destroyed, whereas no effect on the muscarinic response was found. Oxygen radical-mediated damage in lung tissue may lead to lung emphysema, hyperresponsiveness, and hypersensitivity. Pharmacotherapeutic interventions that prevent initiation or propagation of these free radical reactions may have a beneficial effect in mineral dust-associated lung disease.
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PMID:Mineral dust exposure and free radical-mediated lung damage. 240 28

The liver, heart, lungs, and stomach of rats exposed to hydrogen fluoride were studied. Histological examination showed partial liver necrosis and emphysema. Using histochemical methods the effect of fluorine ions was found in: a reduction of the activity of succinic and beta-hydroxybutyric dehydrogenases in the liver, heart muscle, superficial and glandular epithelium cells, and in lamina propria of the gastric mucosa; an increase in the activity of lactate dehydrogenase in liver cells; an increase in the activity of acid phosphatase in the liver, heart muscle, bronchus epithelium, bronchioli, and interalveolar septum cells; an increase in the activity of alkaline phosphatase in the liver, lungs, and heart muscle connective tissue, and in all gastric epithelium cells. The results obtained mainly point to the inhibition of oxidative metabolism by fluoride ions.
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PMID:Studies on the toxicology of fluorine compounds. I. Histological and histochemical investigations on the liver, heart, lungs, and stomach of rats exposed to hydrogen fluoride. 261 87

Triggered polymorphonuclear leucocytes (PMNL) can decrease the elastase inhibitory capacity of serum by inactivating the main inhibitor of elastase alpha-1-proteinase inhibitor (alpha-1-PI). Maximal inactivation occurs with stimuli that release myeloperoxidase from PMNL along with hydrogen peroxide. Specific protection of alpha-1-PI function is obtained with antioxidants that interfere with this system. PMNL that are activated with phorbol myristate acetate release hydrogen peroxide but not myeloperoxidase, and only inactivate alpha-1-PI in the presence of exogenously-added PMNL-derived supernatants which contain this enzyme. Cell-free inactivation requires both active enzyme and hydrogen peroxide, and is greatest at pH 6.2, the pH optimum for myeloperoxidase-catalysed inactivation of alpha-1-PI. This data supports the notion that leucocyte myeloperoxidase may act to suppress the antiprotease screen afforded by alpha-1-PI by generating hypochlorous acid in the presence of chloride and respiratory burst-derived hydrogen peroxide, and in the microenvironment of lowered pH associated with degranulation. Pulmonary emphysema seems to be associated with an imbalance between elastase and its inhibitors at the lung surface. PMNL are likely to play an important role in the pathogenesis of emphysema since they contain both elastase, which can solubilize connective tissue elastin, and the constituents of an oxidative system which can inactivate the most important antielastase, alpha-1-PI.
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PMID:Inactivation of alpha-1-proteinase inhibitor in serum by stimulated human polymorphonuclear leucocytes. Evidence for a myeloperoxidase-dependent mechanism. 283 92

The most common causes of hypoxic cor pulmonale are chronic bronchitis and emphysema. Although the clinical situation in some patients is characterized early by hypoxemia, oedema is rare in patients with an arterial pO2 above 60 mm Hg. The presence of oedema can be regarded as an unfavorable prognostic indicator. For many years, peripheral oedema had been considered an expression of congestive cardiac failure; it may be assumed, however, that neither right nor left ventricular failure is prerequisite to the development of oedema. Oedema formation can be attributed to excessive retention of salt and water or a redistribution of body water into the extracellular compartment. Hypercapnia and acidosis affect direct stimulation of renal hydrogen ion secretion. The resulting electrochemical imbalance is compensated by reabsorption of sodium. Hypercapnia and, in acute phases possibly, hypoxia lead to a fall in renal blood flow mediated by alpha-adrenergic stimulation through activation of the renin-angiotensin-aldosterone system. An increase in plasma ADH may also contribute to development of oedema. The development of cor pulmonale or respiratory insufficiency can be enhanced by nocturnal hypoventilation and hypoxia during sleep as well as by sleep apnoea. Nocturnal hypoxia, smoking and reduced oxygen tension in the relevant kidney cells responsible for erythropoietin release promote the occurrence of secondary polycythaemia. For treatment of acute exacerbations in cor pulmonale associated with infections bronchitis antibiotics such as amoxycillin and cotrimoxacol are drugs of first choice. While the use of digoxin is of doubtful value, the cautious administration of diuretics may bring symptomatic relief. In addition to physiotherapy, beta-2-selective bronchodilators and nebulized bronchodilator therapy can be useful; theophyllines dilate airways and increase cardiac output but they can cause arrhythmias and a deterioration of arterial blood gases in hypoxic patients. If the patient has been treated chronically with corticosteroids, the dosage will have to be incremented; if asthma is suspected, corticosteroid treatment is essential. Controlled oxygen therapy is the most important single therapy aimed at relief of severe arterial hypoxaemia. Oxygen should be titrated initially (for the first one or two days) to achieve an arterial tension of at least 48 mm Hg. Thereafter, the oxygen flow should be increased to yield an arterial tension in excess of 60 mm Hg during continued treatment for two to three weeks.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Hypoxic cor pulmonale: a review. 294 54


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