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Query: UMLS:C0034067 (
emphysema
)
11,506
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
This project examined the influence of preexisting, experimentally induced pulmonary
emphysema
on the adverse health effects in rats of chronic inhalation exposure to either nitrogen dioxide or automotive diesel-engine exhaust. Previous reports indicated that humans with chronic lung disease were among those most severely affected by episodic exposures to high concentrations of airborne toxicants. There were no previous reports comparing the effects of chronic inhalation exposure to components of automotive emissions in emphysematous and normal animals. The hypothesis tested in this project was that rats with preexisting pulmonary
emphysema
were more susceptible than rats with normal lungs to the adverse effects of the toxicant exposures. Young adult rats were housed continuously in inhalation exposure chambers and exposed seven hours per day, five days per week, for 24 months to nitrogen dioxide at 9.5 parts per million (ppm)2, or to diesel exhaust at 3.5 mg soot/m3, or to clean air as control animals. These concentrations were selected to produce mild, but distinct, effects in rats with normal lungs.
Pulmonary emphysema
was induced in one-half of the rats by intratracheal instillation of the proteolytic enzyme elastase six weeks before the toxicant exposures began. Health effects were evaluated after 12, 18, and 24 months of exposure. The measurements included respiratory function, clearance of inhaled radiolabeled particles, pulmonary immune responses to instilled antigen, biochemistry and cytology of airway fluid, total lung collagen, histopathology, lung morphometry, and lung burdens of diesel soot. The significance of influences of
emphysema
and toxicant exposure, and interactions between influences of the two treatments, were evaluated by analysis of variance. The elastase treatment resulted in pulmonary
emphysema
that was manifested by enlarged alveoli and alveolar ducts, and by ruptured alveolar septa. There was no accompanying inflammation and no alterations of bronchioles. The
emphysema
persisted throughout the study period, with little evidence of progression. Lung weight was increased, physiological lung volumes were enlarged, lung compliance was increased, and airflow was obstructed.
Nitrogen dioxide
exposure of normal rats caused mild epithelial hyperplasia and a thickening of the walls of terminal bronchioles, an extension of bronchiolar epithelium into proximal alveoli, and inflammation in proximal alveoli. Lung volume and weight and the lung collagen content were increased. Airway fluid indicators of cell damage and oxidant protective mechanisms were increased. Similar effects of nitrogen dioxide exposure were superimposed over the effects of
emphysema
in emphysematous nitrogen dioxide-exposed rats. Several parameters were affected similarly by nitrogen dioxide exposure and
emphysema
(for example, increased lung volume), and the combined effects tended to be additive.(ABSTRACT TRUNCATED AT 400 WORDS)
...
PMID:Influence of experimental pulmonary emphysema on the toxicological effects from inhaled nitrogen dioxide and diesel exhaust. 248 68
In the present paper, we have reviewed experimental animal studies on the effects of the two most important oxidant airborne pollutants, nitrogen dioxide and ozone, on the respiratory system. The toxic effects depend on concentration and length of exposure, and are generally similar for both oxidants, with ozone operative at lower concentrations. High doses of both oxidants cause death due to lung oedema. Exposure to sublethal levels causes functional alterations such as airflow limitation and airway hyperresponsiveness to bronchoconstrictor stimuli. These effects, which are generally reversible, are associated with epithelial injury, oedema and airway and parenchymal infiltration by inflammatory cells. Loss of cilia of airway epithelium and necrosis of type I alveolar epithelial cells are the most prominent consequences at the epithelial level. Inflammation is characterized by early neutrophilic infiltration, followed by an increased number of mononuclear cells, predominantly alveolar macrophages. After long-term exposure, whilst nitrogen dioxide causes predominantly
emphysema
, ozone produces mainly pulmonary fibrosis. Biochemical effects include lipid peroxidation, increased antioxidant metabolism, and alteration of enzyme activity.
Nitrogen dioxide
and ozone may also alter the immunological response and reduce the defence against infections, increasing the susceptibility of exposed animals to infections.
...
PMID:Effect of oxidant air pollutants on the respiratory system: insights from experimental animal research. 748 4
Nitrogen dioxide
(NO2), the oxidation product of nitric oxide (NO), is a reactive free radical forming gas, the inhalation of which has been reported to induce severe damage to distal airways. In order to quantify dose and time course of parenchymal and vascular damage, rats were exposed to 5, 10 and 20 ppm NO2 for 3 and 25 days, followed by quantitative histology and morphometry of the lung. Histological investigations of the short-term exposed animals showed structural alterations extending from slight interstitial oedema after exposure to 5 ppm, to epithelial necrosis and interstitial inflammatory infiltration after exposure to 10 ppm, and an additional intra-alveolar oedema after 20 ppm. The pulmonary arteries disclosed no qualitative changes, such as muscularization of intra-acinar vessels. Long-term exposure to 10 ppm and 20 ppm NO2 resulted in
emphysema
and slight centrilobular interstitial fibrosis. Morphometric analysis revealed the alveolar surface density to be significantly diminished after short-term exposure to 20 ppm NO2 and long-term exposure to 10 and 20 ppm NO2. The medial thickness of pulmonary arteries was significantly increased after short- and long-term exposure to 20 ppm NO2 and long-term exposure to 10 ppm NO2. In the 5 ppm short- and long-term exposure groups the pulmonary arterial medial thickness was significantly decreased compared to controls. Correlation analysis revealed a negative correlation between average medial thickness and alveolar surface density (coefficient of correlation: -0.56). We conclude that the extent of NO2-induced pulmonary parenchymal and vascular alterations are closely related and concentration- and time-dependent.
...
PMID:Quantitative analysis of parenchymal and vascular alterations in NO2-induced lung injury in rats. 758 95
Nitrogen dioxide
(NO2), an air pollutant produced by burning fossil fuels and a component of cigarette smoke, is thought to contribute to the pathogenesis of pulmonary diseases, such as
emphysema
. In order to gain information on the mechanism by which NO2 damages the lung and proteins vital to its function, as well as its reaction with proteins in general, in vitro exposures of alpha-1-proteinase inhibitor (alpha 1PI), elastin, poly-L-lysine, and poly-L-arginine were performed. The ability of alpha 1PI to inhibit its natural physiological target, human neutrophil elastase (HNE), declined with exposure to 54% of the control value at molar ratios of NO2:alpha 1PI of 400:1 and greater. Exposure of alpha 1PI to NO2 resulted in a 50% loss of immunoreactivity with either monoclonal or polyclonal antibodies in an enzyme-linked immunosorbent assay at molar ratios of NO2:alpha 1PI of 100:1 and greater. The results of parallel O-phthalaldehyde and bicinchoninic acid protein assays as well as amino acid analysis on control and NO2-exposed alpha 1PI suggested a reactivity of NO2 with lysine residues. Elastin and poly-L-lysine were labeled by reductive methylation of amino groups with [3H]HCHO prior to treatment with NO2 in aqueous solutions at physiological pH. NO2 exposure of elastin resulted in the solubilization of 84% of the associated radioactivity of which 79% was identified as [3H]methyllysine by amino acid analysis. After NO2 exposure of poly-L-[3H]lysine, gel filtration chromatography revealed that the 50,000 M(r) poly-L-[3H]lysine had been degraded to small peptides of 1-3000 M(r). Similarly, after NO2 exposure of unlabeled poly-L-arginine, gel filtration chromatography, and total peptide analysis revealed that the 47,500 M(r) peptide was also partially degraded to peptides. These results suggest that NO2 reacts with the epsilon-amino groups of Lys residues (primary amines) and with the amide nitrogen (secondary amines) of surface-exposed Lys and Arg residues in the peptide backbone to result in peptide bond cleavage. These findings are the first indication of NO2-mediated peptide degradation and provide additional data on the potential of NO2 to damage proteins vital to the function of the lung in an in vitro exposure system.
...
PMID:Nitrogen dioxide reactivity with proteins: effects on activity and immunoreactivity with alpha-1-proteinase inhibitor and implications for NO2-mediated peptide degradation. 832 82
Nitrite ion
is a by-product of nitrogen oxides (nitric oxide and nitrogen dioxide) from cigarette smoke and is used as a preservative for curing meats. Therefore, study of the reaction of nitrite with elastin in vitro was undertaken. By colorimetric assay, reactivity of nitrite with insoluble elastin at neutral pH, 37 degrees C, and physiologic concentration was confirmed. In histochemical studies on in situ human aortic elastin, nitrite-treated sections displayed marked structural disruptions. Determinations of fluorescence and absorbance on nitrite-treated soluble bovine elastin revealed marked alterations of fluorescence, and increased UV and visible absorbance. Amino acid analysis confirmed that it reacted with tyrosine. The findings indicate that non-enzymatic nitration by nitrite may have deleterious effects on elastin in vivo and may provide insights into the pathogenesis of chronic elastin degenerative processes, including aortic aneurysms, pulmonary
emphysema
, and premature skin wrinkling, all of which have been well known to have associations with cigarette smoking.
...
PMID:The nitrite/elastin reaction: implications for in vivo degenerative effects. 951 92
