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Feasibility of Measuring Tobacco Smoke Air Pollution in Homes: Report from a Pilot Study

Author

Listed:
  • Laura Rosen

    (Department of Health Promotion, School of Public Health, Sackler Faculty of Medicine, Tel Aviv University, P.O. Box 39040, Tel Aviv 69978, Israel)

  • David Zucker

    (Department of Statistics, Hebrew University, Mt. Scopus, Jerusalem 9190501, Israel)

  • Melbourne Hovell

    (Center for Behavioral Epidemiology and Community Health, Graduate School of Public Health, San Diego State University, San Diego, CA 92123, USA)

  • Nili Brown

    (Department of Health Promotion, School of Public Health, Sackler Faculty of Medicine, Tel Aviv University, P.O. Box 39040, Tel Aviv 69978, Israel)

  • Amit Ram

    (Department of Health Promotion, School of Public Health, Sackler Faculty of Medicine, Tel Aviv University, P.O. Box 39040, Tel Aviv 69978, Israel)

  • Vicki Myers

    (Department of Health Promotion, School of Public Health, Sackler Faculty of Medicine, Tel Aviv University, P.O. Box 39040, Tel Aviv 69978, Israel)

Abstract

Tobacco smoke air pollution (TSAP) measurement may persuade parents to adopt smoke-free homes and thereby reduce harm to children from tobacco smoke in the home. In a pilot study involving 29 smoking families, a Sidepak was used to continuously monitor home PM 2.5 during an 8-h period, Sidepak and/or Dylos monitors provided real-time feedback, and passive nicotine monitors were used to measure home air nicotine for one week. Feedback was provided to participants in the context of motivational interviews. Home PM 2.5 levels recorded by continuous monitoring were not well-accepted by participants because of the noise level. Also, graphs from continuous monitoring showed unexplained peaks, often associated with sources unrelated to indoor smoking, such as cooking, construction, or outdoor sources. This hampered delivery of a persuasive message about the relationship between home smoking and TSAP. By contrast, immediate real-time PM 2.5 feedback (with Sidepak or Dylos monitor) was feasible and provided unambiguous information; the Dylos had the additional advantages of being more economical and quieter. Air nicotine sampling was complicated by the time-lag for feedback and questions regarding shelf-life. Improvement in the science of TSAP measurement in the home environment is needed to encourage and help maintain smoke-free homes and protect vulnerable children. Recent advances in the use of mobile devices for real-time feedback are promising and warrant further development, as do accurate methods for real-time air nicotine air monitoring.

Suggested Citation

  • Laura Rosen & David Zucker & Melbourne Hovell & Nili Brown & Amit Ram & Vicki Myers, 2015. "Feasibility of Measuring Tobacco Smoke Air Pollution in Homes: Report from a Pilot Study," IJERPH, MDPI, vol. 12(12), pages 1-14, November.
    • Handle: RePEc:gam:jijerp:v:12:y:2015:i:12:p:14970-15142:d:59603
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    Citations

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    Cited by:

    1. Katarzyna Milcarz & Leokadia Bak-Romaniszyn & Dorota Kaleta, 2017. "Environmental Tobacco Smoke Exposure and Smoke-Free Rules in Homes among Socially-Disadvantaged Populations in Poland," IJERPH, MDPI, vol. 14(4), pages 1-17, April.
    2. Sotiris Vardoulakis & Evanthia Giagloglou & Susanne Steinle & Alice Davis & Anne Sleeuwenhoek & Karen S. Galea & Ken Dixon & Joanne O. Crawford, 2020. "Indoor Exposure to Selected Air Pollutants in the Home Environment: A Systematic Review," IJERPH, MDPI, vol. 17(23), pages 1-24, December.

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