3D imaging of London roadside particulate matter L. Miyashita (London, United Kingdom), G. Foley (London, United Kingdom), I. Gill (Surrey, United Kingdom), G. Gillmore (Surrey, United Kingdom), R. Dobson (Stirling, United Kingdom), S. Semple (Stirling, United Kingdom), A. Rule (Baltimore, United States of America), J. Grigg (London, United Kingdom), D. Wertheim (Surrey, United Kingdom)
Source: Virtual Congress 2020 – Effects of environmental exposures on lung pathology
Session: Effects of environmental exposures on lung pathology Session type: E-poster sessionNumber: 1977
Rating:
You must login to grade this presentation.
Share or cite this content
Citations should be made in the following way:
L. Miyashita (London, United Kingdom), G. Foley (London, United Kingdom), I. Gill (Surrey, United Kingdom), G. Gillmore (Surrey, United Kingdom), R. Dobson (Stirling, United Kingdom), S. Semple (Stirling, United Kingdom), A. Rule (Baltimore, United States of America), J. Grigg (London, United Kingdom), D. Wertheim (Surrey, United Kingdom). 3D imaging of London roadside particulate matter. 1977
You must login to share this Presentation/Article on Twitter, Facebook, LinkedIn or by email.
Member's Comments
Related content which might interest you:
Related content which might interest you:
Where imaging can matter Source: International Congress 2014 – AirPROM: can imaging and modelling take us beyond FEV1? Year: 2014
"ECOPASS", the traffic restriction charging in Milan: effects on particulate matter pollution Source: Annual Congress 2009 - Indoor and outdoor air pollution Year: 2009
Novel cellular effects of ultrafine particulate matter from an underground railway station revealed by RNA sequencing Source: International Congress 2019 – Mechanisms underlying acute exacerbation of respiratory disease Year: 2019
Particulate matter exposure and differences in pulmonary vascular structure: The MESA lung and air pollution studies Source: International Congress 2014 – Highlights in respiratory epidemiology Year: 2014
Comparison of sampling methods of indoor air particulate matter for in vitro exposure studies Source: International Congress 2017 – Air pollution Year: 2017
Toxic potential of ambient particulate matter in various urban areas of the world and its relation to chemical composition and emission sources Source: International Congress 2014 – Environmental respiratory diseases in children, teenagers and adults Year: 2014
Airway macrophage carbon: biomarker of exposure to particulate matter air pollution Source: Eur Respir Rev 2008; 17: 20-21 Year: 2008
Hazardous levels of PM2.5 (particulate matter less than 2.5 microns in mean aerodynamic diameter) are emitted during burning of individual fire crackers in India Source: International Congress 2016 – Targeting care, pulmonary rehabilitation, management, and self-management of COPD exacerbations in primary care Year: 2016
Does modelled exposure of children to particulate matter air pollution for the school address reflect personal exposure to black carbon? Source: International Congress 2016 – Asthma, bronchiectasis, and the risk factors for respiratory morbidity Year: 2016
The presence of air pollution particulate matter in cryopreserved placental tissue cells Source: ERJ Open Res, 7 (3) 00349-2021; 10.1183/23120541.00349-2021 Year: 2021
Bioreactivity and fate of nanoparticles deposited at the pulmonary epithelial interface: focus on traffic-derived particulate matter Source: International Congress 2016 – Traffic air pollution in urban areas Year: 2016
Fine and coarse particulate air pollution in relation to respiratory health in Sweden Source: Eur Respir J 2013; 42: 924-934 Year: 2013
Particulate matter produced by environmental tobacco smoke and by exhausts from diesel cars: an ecological perspective Source: Eur Respir J 2003; 22: Suppl. 45, 302s Year: 2003
The potential of a low-cost particle counter to quantify airborne particulate matter in a laboratory animal facility Source: International Congress 2015 – Occupational and environmental exposure assessment and biomarkers Year: 2015
Particulate matter (PM10) in London air is highly oxidising, implying a significant potential risk to respiratory health Source: Eur Respir J 2002; 20: Suppl. 38, 21s Year: 2002
Toxicological effects of particulate matter from a Nordic chimney wood stove on two human lung cell lines Source: International Congress 2019 – Air pollution and respiratory health Year: 2019
Real-time measurement of indoor particulate matter originating from environmental tobacco smoke: a pilot study Source: Eur Respir J 2002; 20: Suppl. 38, 177s Year: 2002
Chronic exposure to black carbon particles and traffic-related particulate matter (PM) specifically from traffic are associated with reduced lung-function in a general population Source: International Congress 2018 – Effect of environmental exposure on lung function outcomes Year: 2018
Particulate matter, science and EU policy Source: Eur Respir J 2007; 29: 428-431 Year: 2007
Airborne particulate matter (PM10) decreases respiratory activity in mitochondria isolated from lung tissue Source: Annual Congress 2011 - Work, the environment and respiratory disease Year: 2011