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Modeling Flight Attendants’ Exposures to Pesticide in Disinsected Aircraft Cabins
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    Modeling Flight Attendants’ Exposures to Pesticide in Disinsected Aircraft Cabins
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    Environmental and Occupational Health Sciences Institute (EOHSI), and Department of Chemical and Biochemical Engineering, Rutgers, The State University of New Jersey, Piscataway, New Jersey 08854, United States
    *Telephone: 848-445-0154. Fax: 732-445-0116. E-mail: [email protected]
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    Environmental Science & Technology

    Cite this: Environ. Sci. Technol. 2013, 47, 24, 14275–14281
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    https://doi.org/10.1021/es403613h
    Published November 19, 2013
    Copyright © 2013 American Chemical Society

    Abstract

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    Aircraft cabin disinsection is required by some countries to kill insects that may pose risks to public health and native ecological systems. A probabilistic model has been developed by considering the microenvironmental dynamics of the pesticide in conjunction with the activity patterns of flight attendants, to assess their exposures and risks to pesticide in disinsected aircraft cabins under three scenarios of pesticide application. Main processes considered in the model are microenvironmental transport and deposition, volatilization, and transfer of pesticide when passengers and flight attendants come in contact with the cabin surfaces. The simulated pesticide airborne mass concentration and surface mass loadings captured measured ranges reported in the literature. The medians (means ± standard devitions) of daily total exposure intakes were 0.24 (3.8 ± 10.0), 1.4 (4.2 ± 5.7), and 0.15 (2.1 ± 3.2) μg day–1 kg–1 of body weight for scenarios of residual application, preflight, and top-of-descent spraying, respectively. Exposure estimates were sensitive to parameters corresponding to pesticide deposition, body surface area and weight, surface-to-body transfer efficiencies, and efficiency of adherence to skin. Preflight spray posed 2.0 and 3.1 times higher pesticide exposure risk levels for flight attendants in disinsected aircraft cabins than top-of-descent spray and residual application, respectively.

    Copyright © 2013 American Chemical Society

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    Supporting Information

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    Additional information regarding the model parameters, schematic diagram, and typical simulated profiles of pesticide concentrations, loadings, exposures, and risks is available free of charge via the Internet at http://pubs.acs.org.

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    Cited By

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    This article is cited by 2 publications.

    1. Dorota Węziak-Białowolska, Piotr Białowolski, Irina Mordukhovich, Eileen McNeely. Work, Gender, and Sexual Harassment on the Frontlines of Commercial Travel: A Cross-Sectional Study of Flight Crew Well-Being. The International Journal of Aerospace Psychology 2020, 30 (3-4) , 171-189. https://doi.org/10.1080/24721840.2020.1796488
    2. Anna M. Pang, Steve Gay, Rajpal Yadav, Carmen Dolea, Corinne Ponce, Raman Velayudhan, Andrea Grout, Jan Fehr, Anita Plenge-Boenig, Patricia Schlagenhauf. The safety and applicability of synthetic pyrethroid insecticides for aircraft disinsection: A systematic review. Travel Medicine and Infectious Disease 2020, 33 , 101570. https://doi.org/10.1016/j.tmaid.2020.101570

    Environmental Science & Technology

    Cite this: Environ. Sci. Technol. 2013, 47, 24, 14275–14281
    Click to copy citationCitation copied!
    https://doi.org/10.1021/es403613h
    Published November 19, 2013
    Copyright © 2013 American Chemical Society

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