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Evaluation of the Influenza Risk Reduction from Antimicrobial Spray Application on Porous Surfaces

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  • Alexandre Chabrelie
  • Jade Mitchell
  • Joan Rose
  • Duane Charbonneau
  • Yoshiki Ishida

Abstract

Antimicrobial spray products are used by millions of people around the world for cleaning and disinfection of commonly touched surfaces. Influenza A is a pathogen of major concern, leading to up to 49,000 deaths and 114,000 hospitalizations per year in the United States alone. One of the recognized routes of transmission for influenza A is by transfer of viruses from surfaces to hands and subsequently to mucous membranes. Therefore, routine cleaning and disinfection of surfaces is an important part of the environmental management of influenza A. While the emphasis is generally on spraying hard surfaces and laundering cloth and linens with high temperature machine drying, not all surfaces can be treated in this manner. The quantitative microbial risk assessment (QMRA) approach was used to develop a stochastic risk model for estimating the risk of infection from indirect contact with porous fomite with and without surface treatment with an antimicrobial spray. The data collected from laboratory analysis combined with the risk model show that influenza A infection risk can be lowered by four logs after using an antimicrobial spray on a porous surface. Median risk associated with a single touch to a contaminated fabric was estimated to be 1.25 × 10−4 for the untreated surface, and 3.6 × 10−8 for the treated surface as a base case assumption. This single touch scenario was used to develop a generalizable model for estimating risks and comparing scenarios with and without treatment to more realistic multiple touch scenarios over time periods and with contact rates previously reported in the literature. The results of this study and understanding of product efficacy on risk reduction inform and broaden the range of risk management strategies for influenza A by demonstrating effective risk reduction associated with treating nonporous fomites that cannot be laundered at high temperatures.

Suggested Citation

  • Alexandre Chabrelie & Jade Mitchell & Joan Rose & Duane Charbonneau & Yoshiki Ishida, 2018. "Evaluation of the Influenza Risk Reduction from Antimicrobial Spray Application on Porous Surfaces," Risk Analysis, John Wiley & Sons, vol. 38(7), pages 1502-1517, July.
  • Handle: RePEc:wly:riskan:v:38:y:2018:i:7:p:1502-1517
    DOI: 10.1111/risa.12952
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    References listed on IDEAS

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    1. Mark Nicas & Rachael M. Jones, 2009. "Relative Contributions of Four Exposure Pathways to Influenza Infection Risk," Risk Analysis, John Wiley & Sons, vol. 29(9), pages 1292-1303, September.
    2. Marie Laure Delignette-Muller & Christophe Dutang, 2015. "fitdistrplus : An R Package for Fitting Distributions," Post-Print hal-01616147, HAL.
    3. Delignette-Muller, Marie Laure & Dutang, Christophe, 2015. "fitdistrplus: An R Package for Fitting Distributions," Journal of Statistical Software, Foundation for Open Access Statistics, vol. 64(i04).
    4. Rachael M. Jones, 2011. "Critical Review and Uncertainty Analysis of Factors Influencing Influenza Transmission," Risk Analysis, John Wiley & Sons, vol. 31(8), pages 1226-1242, August.
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    Cited by:

    1. Umesh Adhikari & Alexandre Chabrelie & Mark Weir & Kevin Boehnke & Erica McKenzie & Luisa Ikner & Meng Wang & Qing Wang & Kyana Young & Charles N. Haas & Joan Rose & Jade Mitchell, 2019. "A Case Study Evaluating the Risk of Infection from Middle Eastern Respiratory Syndrome Coronavirus (MERS‐CoV) in a Hospital Setting Through Bioaerosols," Risk Analysis, John Wiley & Sons, vol. 39(12), pages 2608-2624, December.
    2. Tiago M. Henriques & Beatriz Rito & Diogo N. Proença & Paula V. Morais, 2022. "Application of an Ultrasonic Nebulizer Closet in the Disinfection of Textiles and Footwear," IJERPH, MDPI, vol. 19(17), pages 1-16, August.

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