Rotavirus Transmission Influenced by Temperature, Water Movement

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Rotavirus Transmission Influenced by Temperature, Water Movement

Climate in the tropics has a larger influence on transmission of the sometime deadly rotavirus than previously shown, University of Michigan researchers have found.

Using sophisticated modeling, U-M School of Public Health researchers showed communities that draw water from large, slow-moving or stagnant sources in cooler seasons have more transmission of the virus than those that access free-flowing water.

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Rotavirus with antibody, Representative image, Source: Wikimedia Commons, Labeled for Reuse

"Our research shows water can both disseminate rotavirus between communities and amplify within-community transmission cycles," said Alicia Kraay, research fellow in epidemiology at the U-M School of Public Health and first author of a study appearing in Proceedings of the National Academy of Sciences.

The researchers conducted their work in rural coastal Ecuador, along three rivers that have different water flow rates, the Onzole, the Cayapas and the Santiago.

While the association between temperature and the presence of rotavirus in water was known prior to the team's systematic review and meta-analysis, the extent of water-borne transmission was less clear.

"There are other transmission pathways that can be influenced by seasonal changes," Kraay said. "For example, rotavirus can also be transmitted through contact with contaminated surfaces and the amount of time that rotavirus can survive on these surfaces depends on both temperature and humidity.

"So, even though we knew incidence varied with temperature, we were not sure waterborne transmission was part of the reason why. Our results helped explain why we see these associations in the literature."

Specifically, the meta-analysis showed a single-degree Celsius temperature increase in stagnant water systems led to up to a 2.4-percent decrease in incidence of the virus.

Rotavirus is a disease characterized by watery diarrhea, vomiting, fever and abdominal pain. It is most common in infants and small children, who can often lose their appetites and become dehydrated.

Diarrheal disease is the fifth-leading cause of death worldwide and third-leading cause among children under 5, the researchers said. Studies have shown that rotavirus is one of four pathogens responsible for most of the severe diarrheal diseases. It has been thought of as a virus spread through person-to-person contact, not one that is largely influenced by climate. Yet, numerous studies have shown it is present in water.

"Our study provides mechanistic understanding of the potential role that temperature plays in rotavirus waterborne transmission in the tropics and has implications for climate change," said Joseph Eisenberg, senior author of the study and chair of the School of Public Health's Department of Epidemiology.

"These results emphasize the importance of wastewater treatment. Currently, billions of people globally (largely in the tropics) are exposed to polluted waters due to the lack of sufficiently treating wastewater."

There is a vaccine for the disease but it's not readily available to those in many countries in the tropics.

"Our results also suggest that clean water alone will not be enough to stop transmission because rotavirus can spread in other ways," Kraay said. "One intervention that can impact all of these pathways is rotavirus vaccination, which has been shown to be highly effective in a variety of contexts."

Other study authors were Andrew Brouwer and Nan Lin of U-M and Philip Collender and Justin Remais of the University of California-Berkeley.

Paper: Modeling environmentally mediated rotavirus transmission: The role of temperature and hydrologic factors

Source: Michigan News

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