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dc.contributor.authorLandwehr, Katherine R.
dc.contributor.authorHillas, J.
dc.contributor.authorMead-Hunter, Ryan
dc.contributor.authorBrooks, P.
dc.contributor.authorKing, A.
dc.contributor.authorO'Leary, R.A.
dc.contributor.authorKicic, Anthony
dc.contributor.authorMullins, Ben
dc.contributor.authorLarcombe, Alexander
dc.date.accessioned2023-01-12T06:28:20Z
dc.date.available2023-01-12T06:28:20Z
dc.date.issued2021
dc.identifier.citationLandwehr, K.R. and Hillas, J. and Mead-Hunter, R. and Brooks, P. and King, A. and O'Leary, R.A. and Kicic, A. et al. 2021. In Vitro primary human airway epithelial whole exhaust exposure. MethodsX. 8: 101561.
dc.identifier.urihttp://hdl.handle.net/20.500.11937/90020
dc.identifier.doi10.1016/j.mex.2021.101561
dc.description.abstract

The method outlined in this article is a customization of the whole exhaust exposure method generated by Mullins et al. (2016) using reprogrammed primary human airway epithelial cells as described by Martinovich et al. (2017). It has been used successfully to generate recently published data (Landwehr et al. 2021). The goal was to generate an exhaust exposure model where exhaust is collected from a modern engine, real-world exhaust concentrations are used and relevant tissues exposed to assess the effects of multiple biodiesel exposures. Exhaust was generated, gently vacuumed into a dilution chamber where it was diluted 1/15 with air and then vacuumed into an incubator containing the primary cell cultures for exposure. Exhaust physico-chemical properties including combustion gas concentrations and particle spectra were then analyzed using a combustion gas analyzer and a Universal Scanning Mobility Particle Sizer. 24 h after exposure, cellular viability and mediator release were measured using Annexin-V/PI staining and meditator multiplexing kits respectively. This method was generated to test biodiesel exhaust exposures but can be easily adapted for any type of engine exhaust exposure or even potentially other respirable environmental exposures such as woodsmoke. The main customization points for this method are: • Exhaust generated by a diesel engine equipped with EURO VI exhaust after treatment devices including diesel particulate filter and diesel oxidation catalyst. • The generated exhaust was diluted 1/15 with air to replicate real world exposure concentrations. • Used primary human airway epithelial cells obtained from bronchoscope brushings from multiple volunteers and reprogrammed to allow multiple, comparative exposures from the same individual.

dc.languageeng
dc.relation.sponsoredbyhttp://purl.org/au-research/grants/arc/DP170104346
dc.rights.urihttp://creativecommons.org/licenses/by-nc-nd/4.0/
dc.subjectAirway epithelial cells
dc.subjectBiodiesel
dc.subjectEnvironmental exposure
dc.subjectExhaust exposure
dc.subjectExposure protocol
dc.titleIn Vitro primary human airway epithelial whole exhaust exposure
dc.typeJournal Article
dcterms.source.volume8
dcterms.source.issn2215-0161
dcterms.source.titleMethodsX
dc.date.updated2023-01-12T06:28:20Z
curtin.departmentCurtin School of Population Health
curtin.accessStatusOpen access
curtin.facultyFaculty of Health Sciences
curtin.contributor.orcidKicic, Anthony [0000-0002-0008-9733]
curtin.contributor.orcidMead-Hunter, Ryan [0000-0003-2025-4449]
curtin.contributor.orcidMullins, Ben [0000-0002-6722-1073]
curtin.contributor.orcidLarcombe, Alexander [0000-0003-4196-4482]
curtin.contributor.researcheridLarcombe, Alexander [A-7704-2011]
curtin.identifier.article-number101561
dcterms.source.eissn2215-0161
curtin.contributor.scopusauthoridKicic, Anthony [6507472922]
curtin.contributor.scopusauthoridMead-Hunter, Ryan [36705125800]
curtin.contributor.scopusauthoridMullins, Ben [7003349055]
curtin.contributor.scopusauthoridLarcombe, Alexander [6508025368]


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