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Beating the Heatstroke

Researchers at the Japanese National Cerebral and Cardiovascular Center Research Institute, Kansai University, and the Japanese National Institute for Environmental Studies use machine learning methods to predict the incidence of heatstroke, hospitalizations, and deaths, which may help in the allocation of healthcare resources

Osaka, Japan - A team of scientists led by the National Cerebral and Cardiovascular Center Research Institute, Kansai University, and the National Institute for Environmental Studies were able to predict the incidence of heatstroke in Japanese cities using only publicly available information, such as demographics, weather forecasts, and time of year. Using a hybrid machine learning method that combined the best performing generalized additive model (GAM) and extreme gradient boosting decision tree (XGBoost), they were able to achieve a high level of accuracy. The model can be used by public health officials to help plan for the risk of heatstroke cases, hospitalizations, and deaths.

As average temperatures rise, so too does the chance of experiencing extremely hot days. Among the main hazards of high temperature and humidity is heatstroke, which can lead to central nervous system damage or even death. While some previous studies used weather information to develop prediction models for heat-related illnesses, they did not consider the level of severity.

Now, a team of scientists, including Soshiro Ogata and Kunihiro Nishimura from the National Cerebral and Cardiovascular Center Research Institute, Taira Ozaki and Keiichi Kitazume from Kansai University, and Shin Yamazaki and Yoshiki Yamagata from the National Institute for Environmental Studies used machine learning methods to predict the total number of heatstroke cases, hospital admissions, and deaths over a 12-hour period in each of 16 Japanese cities. They employed a hybrid model that combined the GAM curve-fitting and XGBoost decision tree methods trained on historical data.

"Our AI prediction model, which can also predict spikes in the incidence of heatstroke, is based on easily obtained weather and demographic data, so it can be widely applied,"first author Soshiro Ogata explains. The XGBoost method is a way to combine many weak predictions into a strong one. Here, the output of many decision trees--a kind of simple flow chart--are grouped to make one highly accurate forecast. The other method, GAM, uses smooth spline functions to fit nonlinear data, such as the occurrence of heatstroke over the course of the year.

"We anticipate that city-specific hybrid machine learning models, such as the one introduced by this project, will play a larger role in public health administration in the future,"corresponding author Kunihiro Nishimura says. The researchers also found that high temperature, small change in maximum temperature between consecutive hot days, high solar radiation, and having a large population of people aged 65 years and older were associated with larger risk.

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The research is published in Nature Communications as "Heatstroke predictions by machine learning, weather information, and an all-population registry for 12-hour heatstroke alerts"(DOI: 10.1038/s41467-021-24823-0).

last updated:2021/09/30

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