Climate change not only impacts the environment but also poses a health risk, fostering the transmission of infectious diseases, including diarrhea.
A recent study indicates a correlation between temperature, day length, and humidity with the heightened transmission of a diarrheal illness. These findings may enhance predictions of future outbreaks, contributing to improved preparedness in health services. (1✔ ✔Trusted Source
A mathematical, classical stratification modeling approach to disentangling the impact of weather on infectious diseases
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Weather's Role in Campylobacteriosis Transmission
During this unique study, researchers led by Dr Giovanni Lo Iacono, investigated the impact of weather on the transmission of campylobacteriosis, a bacterial infection which can cause diarrhea and stomach pains. According to the World Health Organisation, Campylobacter infections are the most common causes of human bacterial gastroenteritis in the world. Infections are generally mild, but can be fatal among very young children, elderly, and immunosuppressed individuals. Dr Giovanni Lo Iacono, Senior Lecturer in Biostatistics and Epidemiology, in the School of Veterinary Medicine at the University of Surrey and who contributed to the recent UKSHA Health Effects of Climate Change, said:‘Elevated temperatures, heightened humidity, and extended day length are linked to the dissemination of campylobacteriosis, the zoonotic disease. #climatechange #diarrhea’
“Since Hippocrates, there has been a large consensus that weather and climate influence the spread of diseases. Getting to the bottom of why this is and what specific environmental factors drive the spread of disease is a complicated matter and not fully understood. We now have a detailed description of how the weather affects the disease, and the next step is to understand the why. Importantly, through our transparent and conceptually simple approach, we can now tell the risk of getting the disease when we know the recent local weather." “This information is invaluable, as illnesses such as campylobacteriosis not only cause discomfort to individuals, but have enormous societal impacts, with people having to call in sick to work and puts extra pressure on health services across the world.”
To determine if weather impacts incidences of campylobacteriosis, researchers analysed data from approximately one million cases of campylobacteriosis in England and Wales over a 20-year period from UKHSA. An innovative mathematical model was developed by the team enabling them to compare this data provided by the Met Office with weather parameters at the time.
Analysis of this data showed incidences of campylobacteriosis were consistent below temperatures of eight degrees Celsius. However, a sharp increase in infection (approximately one case per million) were observed for every five degree rise in temperature, where temperatures were between eight to 15 degrees Celsius. A link to humidity was identified by the team who also observed high incidents of infection when levels of water vapor in the air were between 75- 80 percent.
Interestingly, researchers observed strong associations between day length (longer than 10 hours) and increased cases of the illness. This association was further strengthened when humidity was also high. Rainfall and wind- speed were not strongly linked to the spread of campylobacteriosis.
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“We do not fully understand why this may be. It could be that warm weather increases the survival and spread of pathogenic bacteria (so the weather causes the disease) or alternatively it could be people’s behavior and how they socialize during such periods."
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Gordon Nichols, a visiting Professor at the University of Surrey, said:
“Environmental data can help us understand complex patterns in the spreads of diseases. Having this knowledge is invaluable as it can help us identify areas vulnerable to potential outbreaks and ensure they have the resources available to treat people affected and to curb the spread of disease into other areas.”
This study was published in the journal PLOS Computational Biology.
Reference:
- A mathematical, classical stratification modeling approach to disentangling the impact of weather on infectious diseases - (https://journals.plos.org/ploscompbiol/article?id=10.1371/journal.pcbi.1011714)