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A Markov Model for Fate and Trasport of Staphylococcus aureus at a Swine Barn and Proposed Interventions to Reduce Worker Exposures

Public Domain
File Language:
English


Details

  • Personal Author:
  • Description:
    Swine workers may be occupationally exposed to Staphylococcus aureus (S. aureus) during time spent inside swine barns. Exposure may occur by inhaling S. aureus-containing particles or by touching contaminated surfaces or infected animals. Despite strong evidence that swine production work is a risk factor for increased nasal carriage of S. aureus, pathways of worker exposure within the swine barn setting have not been well characterized. We developed a Markov chain model to address this research gap by first describing the fate and transport of S. aureus-containing particles within a swine finishing barn. We defined 7 possible physical locations in and around the barn in which S. aureus-containing particles may exist and used published data to determine the probability that a particle will transition from any of these locations to the other locations during a 1-s time interval. We then used our model to estimate worker exposure to S. aureus during a period of 1 s to 30 min spent inside the swine barn. Finally, we modified inputs to simulate interventions to protect workers, such as ventilation controls, respirator use, and handwashing. Increasing the ventilation rate (ie the rate at which outdoor air replaces indoor air in the barn) in our model from the recommended rate for cold weather to the rate for mild weather resulted in a 59% decrease in the number of S. aureus-containing particles in the worker's respiratory system after 30 min. Increasing ventilation rates further to the recommended rate for hot weather resulted in an additional 58% decrease. Models simulating floor and surface cleaning prior to the worker's entry into the barn had little impact on the air concentration of S. aureus (<1% change) but reduced worker exposure to facial membranes by up to 13%. Simulations of N-95 respirator wearing had the greatest impact on worker exposure. As modeled, a well-fitting N-95 respirator may reduce worker inhalation exposure from 1,772 to 72 S. aureus-containing particles after 30 min in the barn, a 96% reduction. In our model, a poorly fitting N-95 respirator reduced exposure by about 30%, indicating that the type and fit of respirator worn has an important impact on the level worker protection.
  • Subjects:
  • Keywords:
  • ISSN:
    2398-7308
  • Document Type:
  • Genre:
  • Place as Subject:
  • CIO:
  • Division:
  • Topic:
  • Location:
  • Pages in Document:
    18 pdf pages
  • Volume:
    70
  • NIOSHTIC Number:
    nn:20071141
  • Citation:
    Ann Work Expo Health 2026 Jan; 70(1):1-18
  • Email:
    gramach5@jhu.edu
  • Federal Fiscal Year:
    2026
  • Peer Reviewed:
    True
  • Source Full Name:
    Annals of Work Exposures and Health
  • Collection(s):
  • Main Document Checksum:
    urn:sha-512:71574898bfff3e946b2dcdf53adf4c4c4bc530b58ffde67397184774747c68107054f99fe8c2bbd3ee812eaf7a21477f9b936d2b0a02b62001e93e46c8840c54
  • Download URL:
  • File Type:
    Filetype[PDF - 1.02 MB ]
File Language:
English
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