Development of an in vitro diesel exposure model for human bronchial epithelial cells Source: Annual Congress 2013 –Environmental and occupational respiratory diseases: new exposure assessment methods, experimental exposure in animal and humans and mechanisms Year: 2013
The composition of diesel exhaust particles affects differently the cell signaling and cytoskeleton in bronchial epithelial cells Source: International Congress 2014 – Mechanistic studies of the airway epithelium Year: 2014
Diesel exhaust particle induce epithelial-to-mesenchymal transition by oxidative stress in human bronchial epithelial cell Source: Annual Congress 2013 –Stress responses and T-cell behaviour in the lung Year: 2013
Different toxicity of combustion particles on human lung A549 cells: A comparison between diesel exhaust and wood smoke Source: International Congress 2015 – Occupational and environmental effects: in vitro and animal models Year: 2015
N-acetyl cysteine (NAC) intervention attenuates the effects of diesel and biodiesel emission exposure on human bronchial epithelial cells, 16HBE, at air-liquid interface Source: International Congress 2016 – Studies in airway cell biology Year: 2016
Effects of diesel exhaust particles on human bronchial epithelial cells at air-liquid interface Source: International Congress 2014 – Exposure measurement and biological effects of pollutants at work, outdoor and at home Year: 2014
Effect of diesel exhaust particles on human lung epithelial cell viability and proliferation Source: Eur Respir J 2003; 22: Suppl. 45, 36s Year: 2003
Effect of diesel exhaust (DE) on stress responses and innate immunity in primary bronchial epithelial cell (PBEC) cultures from patients with COPD and controls Source: International Congress 2016 – Translational studies in lung disease Year: 2016
Effect of gasoline exhaust emission on bronchial epithelial cells and natural killer cells Source: International Congress 2015 – Occupational and environmental effects: in vitro and animal models Year: 2015
Regulation of human lung epithelial cell numbers by diesel exhaust particles Source: Eur Respir J 2006; 27: 705-713 Year: 2006
Particulate matter promotes epithelial-to-mesenchymal transition in human lung epithelial cells via ROS pathway Source: International Congress 2016 – Occupational and environmental exposures and biomarkers: human studies, animal data, and in vitro methods Year: 2016
Primary human bronchial epithelial cell responses to diesel and novel biodiesel emissions Source: International Congress 2018 – COPD: immune regulation and therapeutic targets Year: 2018
Geogenic dust impacts cell viability and inflammatory cytokines in human airway epithelial cells Source: International Congress 2014 – Exposure measurement and biological effects of pollutants at work, outdoor and at home Year: 2014
Primary bronchial airway epithelial cell in vitro responses to common environmental exposures Source: International Congress 2015 – Respiratory infections in children Year: 2015
Reconstituted human airway epithelium 3D-model to assess the impact of air pollutants on the inflammatory response Source: International Congress 2014 – Mechanistic studies of the airway epithelium Year: 2014
Particulate matter-induced microparticle generation by human endothelial cells: A novel link between cardiopulmonary diseases and airborne pollutants Source: International Congress 2015 – Translational studies in airway cell biology Year: 2015
Farm dust exposure decreases gene expression of epithelial alarmins in primary bronchial epithelial cells Source: Virtual Congress 2021 – Environmental and lifestyle impacts on chronic lung disease Year: 2021
Effect of diesel exposure on markers of apoptosis and proliferation within the bronchial epithelium Source: Eur Respir J 2004; 24: Suppl. 48, 604s Year: 2004
Carbocysteine reverts the effects of cigarette smoke on the growth and on the senescence of bronchial epithelial cells Source: International Congress 2014 – Effect of cigarette smoke on cell behaviour: cell biology, signalling and senescence Year: 2014
Exposure to diesel particulate matter enhances the rhinovirus load in primary nasal epithelial cells Source: International Congress 2017 – Postnatal lung growth and development Year: 2017