BMC Public Health (Jun 2024)

The impact of temperature, humidity and closing school on the mumps epidemic: a case study in the mainland of China

  • Xiaoqun Li,
  • Lianyun Zhang,
  • Changlei Tan,
  • Yan Wu,
  • Ziheng Zhang,
  • Juan Ding,
  • Yong Li

DOI
https://doi.org/10.1186/s12889-024-18819-w
Journal volume & issue
Vol. 24, no. 1
pp. 1 – 16

Abstract

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Abstract Background To control resurging infectious diseases like mumps, it is necessary to resort to effective control and preventive measures. These measures include increasing vaccine coverage, providing the community with advice on how to reduce exposure, and closing schools. To justify such intervention, it is important to understand how well each of these measures helps to limit transmission. Methods In this paper, we propose a simple SEILR (susceptible-exposed-symptomatically infectious-asymptomatically infectious-recovered) model by using a novel transmission rate function to incorporate temperature, humidity, and closing school factors. This new transmission rate function allows us to verify the impact of each factor either separately or combined. Using reported mumps cases from 2004 to 2018 in the mainland of China, we perform data fitting and parameter estimation to evaluate the basic reproduction number $${\mathfrak R}_0$$ R 0 . As a wide range of one-dose measles, mumps, and rubella (MMR) vaccine programs in China started only in 2008, we use different vaccination proportions for the first Stage I period (from 2004 to 2008) and the second Stage II period (from 2009 to 2018). This allows us to verify the importance of higher vaccine coverage with a possible second dose of MMR vaccine. Results We find that the basic reproduction number $${\mathfrak R}_0$$ R 0 is generally between 1 and 3. We then use the Akaike Information Criteria to assess the extent to which each of the three factors contributed to the spread of mumps. The findings suggest that the impact of all three factors is substantial, with temperature having the most significant impact, followed by school opening and closing, and finally humidity. Conclusion We conclude that the strategy of increasing vaccine coverage, changing micro-climate (temperature and humidity), and closing schools can greatly reduce mumps transmission.

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