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Characterization of Airborne Particles Emitted During Application of Cosmetic Talc Products

Author

Listed:
  • Pat E. Rasmussen

    (Environmental Health Science and Research Bureau, HECSB, Health Canada, 50 Colombine Drive, Ottawa, ON K1A 0K9, Canada
    Earth and Environmental Sciences Department, University of Ottawa, Ottawa, ON K1N 6N5, Canada)

  • Christine Levesque

    (Environmental Health Science and Research Bureau, HECSB, Health Canada, 50 Colombine Drive, Ottawa, ON K1A 0K9, Canada)

  • Jianjun Niu

    (Environmental Health Science and Research Bureau, HECSB, Health Canada, 50 Colombine Drive, Ottawa, ON K1A 0K9, Canada)

  • Howard D. Gardner

    (Earth and Environmental Sciences Department, University of Ottawa, Ottawa, ON K1N 6N5, Canada)

  • Gregory Nilsson

    (Construction Research Center, National Research Council of Canada, 1200 Montreal Road, Ottawa, ON K1A 0R6, Canada)

  • Kristin Macey

    (Existing Substances Risk Assessment Bureau, HECSB, Health Canada, 269 Laurier Ave W., Ottawa, Ottawa, ON K1A 0P8, Canada)

Abstract

A pilot study was undertaken to characterize the concentration, duration and particle size distribution of the talc cloud that forms in the personal breathing zone (PBZ) during application of certain talc-containing cosmetics. Multiple direct-reading instruments were employed to simultaneously monitor PM 4 concentrations (particulate matter with aerodynamic diameter < 4 µm; mg/m 3 ) at different distances from each of three subjects while they applied talc products. Results indicated that the purpose and method of applying the talc product, combined with behavioral and physical differences amongst subjects, all strongly influenced airborne talc concentrations and the duration of the cloud. Air concentrations of talc in the PBZ averaged around 1.0 mg/m 3 , and the duration of exposure varied from less than one minute to more than ten minutes. The real-time monitors captured the occasional formation of secondary clouds, likely caused by resuspension of talc particles from skin or other surfaces. Measurements of aerosolized baby powder, face powder, and two adult body powders indicated that the median aerodynamic diameter of the talc cloud ranged from 1.7 to 2.0 µm. These direct-reading approaches were valuable for providing detailed characterization of short duration exposures to airborne talc particles, and will be useful to support future exposure assessments of talc and other powders in consumer products.

Suggested Citation

  • Pat E. Rasmussen & Christine Levesque & Jianjun Niu & Howard D. Gardner & Gregory Nilsson & Kristin Macey, 2019. "Characterization of Airborne Particles Emitted During Application of Cosmetic Talc Products," IJERPH, MDPI, vol. 16(20), pages 1-13, October.
  • Handle: RePEc:gam:jijerp:v:16:y:2019:i:20:p:3830-:d:275104
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    References listed on IDEAS

    as
    1. Amanda M. Burns & Christy A. Barlow & Amber M. Banducci & Kenneth M. Unice & Jennifer Sahmel, 2019. "Potential Airborne Asbestos Exposure and Risk Associated with the Historical Use of Cosmetic Talcum Powder Products," Risk Analysis, John Wiley & Sons, vol. 39(10), pages 2272-2294, October.
    2. Elizabeth L. Anderson & Patrick J. Sheehan & Renee M. Kalmes & John R. Griffin, 2017. "Assessment of Health Risk from Historical Use of Cosmetic Talcum Powder," Risk Analysis, John Wiley & Sons, vol. 37(5), pages 918-929, May.
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