AI Article Synopsis
- Fomites (contaminated surfaces) can spread infectious diseases, but their actual impact on transmission risk is still not fully understood.
- Researchers created surface touch networks by collecting data from scholars' office interactions and tracking contamination spread using a tracer bacterium.
- The findings indicated that touching common surfaces and the size of social groups played significant roles in the spread of contamination, suggesting that understanding these factors could help identify fomite exposure risks and potential superspreading events.
Article Abstract
Fomites are known to spread infectious diseases, but their role in determining transmission risk remains unclear. The association of surface touch networks (STNs), proposed to explain this risk, with real-life surface contamination has not yet been demonstrated. To construct STNs, we collected surface touch data from 23 to 26 scholars through 2 independent experiments conducted in office spaces for 13 h each. In parallel, a tracer bacterium (Lactobacillus bulgaricus) was spread by a designated carrier in each experiment during normal activities; the subsequent extent of surface contamination was assessed using qPCR. The touch data were also analyzed using an agent-based model that predicted the observed contamination. Touching public (door handles) and hidden public (desks, chair seatbacks) surfaces that connected occupants, sparse hand-to-hand contact, and active carriers contributed significantly to contamination spread, which was also correlated with the size of the social group containing carriers. The natural and unsupervised experiments reflected realistic exposure levels of mouths (1-10 ppm of total contamination spread by one root carrier), nostrils (~1 ppm), and eyes (~0.1 ppm). We conclude that the contamination degree of known and hidden public surfaces can indicate fomite exposure risk. The social group effect could trigger superspreading events through fomite transmission.
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| http://dx.doi.org/10.1016/j.jhazmat.2021.126137 | DOI Listing |
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