nitrogen-dioxide and Tracheal-Diseases

nitrogen-dioxide has been researched along with Tracheal-Diseases* in 2 studies

Other Studies

2 other study(ies) available for nitrogen-dioxide and Tracheal-Diseases

Article	Year
Impact of exposure to urban air pollution on grey squirrel (Sciurus carolinensis) lung health. Environmental pollution (Barking, Essex : 1987), 2023, Jun-01, Volume: 326 The increased rate of global urbanisation has recently exacerbated the significant public health problem of traffic related air pollution. Despite the known significant impact on human health, little is known about the effects of air pollution on wildlife health. The lung is the primary target organ for the effects of exposure to air pollution, leading to lung inflammation, altering the lung epigenome, culminating in respiratory disease. In this study, we aimed to assess lung health and DNA methylation profiles in Eastern grey squirrel (Sciurus carolinensis) populations living across an urban-rural air pollution gradient. Squirrel lung health was assessed in four populations situated across the most polluted inner-city boroughs to the less polluted edges of Greater London. We also assessed lung DNA methylation across three London sites and a further two rural sites in Sussex and North Wales. Lung and tracheal diseases were present in 28% and 13% of the squirrels respectively. Specifically, focal inflammation (13%), focal macrophages with vacuolated cytoplasm (3%) and endogenous lipid pneumonia (3%). There was no significant difference in prevalence of lung, tracheal diseases, anthracosis (carbon presence) or lung DNA methylation levels between urban sites and urban and rural sites respectively or NO Topics: Air Pollutants; Air Pollution; Animals; Animals, Wild; Environmental Exposure; Humans; Lung; Nitrogen Dioxide; Sciuridae; Tracheal Diseases; Vehicle Emissions	2023
Nitrogen dioxide-induced eosinophilia and mucosal injury in the trachea of the guinea pig. ORL; journal for oto-rhino-laryngology and its related specialties, 1993, Volume: 55, Issue:1 Nitrogen dioxide exposure-induced mucosal pathology of the guinea pig trachea was studied. Exposure to 3 or 9 ppm of nitrogen dioxide for 6 h a day, 6 times weekly for 2 weeks resulted in decreased ciliary activity as well as a dramatic eosinophil accumulation to the epithelium and submucosal layer. Especially exposure to 9 ppm of nitrogen dioxide induced epithelial injury through the activation of eosinophils accumulated in the tracheal mucosa. The epithelial damage induced by nitrogen dioxide could lead to hyperresponsiveness and prolonged allergic inflammation. Our study suggests that environmental nitrogen dioxide could contribute to the hyperresponsiveness and could most probably be involved in the development and chronicity of airway allergic disorders. Topics: Animals; Cilia; Ciliary Motility Disorders; Eosinophilia; Epithelium; Female; Guinea Pigs; Microscopy, Electron; Mucous Membrane; Nitrogen Dioxide; Trachea; Tracheal Diseases	1993

Article

Year

Impact of exposure to urban air pollution on grey squirrel (Sciurus carolinensis) lung health.

Environmental pollution (Barking, Essex : 1987), 2023, Jun-01, Volume: 326

The increased rate of global urbanisation has recently exacerbated the significant public health problem of traffic related air pollution. Despite the known significant impact on human health, little is known about the effects of air pollution on wildlife health. The lung is the primary target organ for the effects of exposure to air pollution, leading to lung inflammation, altering the lung epigenome, culminating in respiratory disease. In this study, we aimed to assess lung health and DNA methylation profiles in Eastern grey squirrel (Sciurus carolinensis) populations living across an urban-rural air pollution gradient. Squirrel lung health was assessed in four populations situated across the most polluted inner-city boroughs to the less polluted edges of Greater London. We also assessed lung DNA methylation across three London sites and a further two rural sites in Sussex and North Wales. Lung and tracheal diseases were present in 28% and 13% of the squirrels respectively. Specifically, focal inflammation (13%), focal macrophages with vacuolated cytoplasm (3%) and endogenous lipid pneumonia (3%). There was no significant difference in prevalence of lung, tracheal diseases, anthracosis (carbon presence) or lung DNA methylation levels between urban sites and urban and rural sites respectively or NO

Topics: Air Pollutants; Air Pollution; Animals; Animals, Wild; Environmental Exposure; Humans; Lung; Nitrogen Dioxide; Sciuridae; Tracheal Diseases; Vehicle Emissions

2023

Nitrogen dioxide-induced eosinophilia and mucosal injury in the trachea of the guinea pig.

ORL; journal for oto-rhino-laryngology and its related specialties, 1993, Volume: 55, Issue:1

Nitrogen dioxide exposure-induced mucosal pathology of the guinea pig trachea was studied. Exposure to 3 or 9 ppm of nitrogen dioxide for 6 h a day, 6 times weekly for 2 weeks resulted in decreased ciliary activity as well as a dramatic eosinophil accumulation to the epithelium and submucosal layer. Especially exposure to 9 ppm of nitrogen dioxide induced epithelial injury through the activation of eosinophils accumulated in the tracheal mucosa. The epithelial damage induced by nitrogen dioxide could lead to hyperresponsiveness and prolonged allergic inflammation. Our study suggests that environmental nitrogen dioxide could contribute to the hyperresponsiveness and could most probably be involved in the development and chronicity of airway allergic disorders.

Topics: Animals; Cilia; Ciliary Motility Disorders; Eosinophilia; Epithelium; Female; Guinea Pigs; Microscopy, Electron; Mucous Membrane; Nitrogen Dioxide; Trachea; Tracheal Diseases

1993