key: cord-0910844-d8ekj8rj authors: Uryu, Shinya; Tanoue, Yuta; Nomura, Shuhei; Matsuura, Kentaro; Makiyama, Koji; Kawashima, Takayuki; Yoneoka, Daisuke; Eguchi, Akifumi; Kawamura, Yumi; Gilmour, Stuart; Sakamoto, Haruka; Shimizu, Kazuki; Ng, Chris Fook Sheng; Hashizume, Masahiro title: Trends in emergency transportation due to heat illness under the new normal lifestyle in the COVID-19 era, in Japan and 47 prefectures date: 2021-05-10 journal: Sci Total Environ DOI: 10.1016/j.scitotenv.2020.144723 sha: 64b1d677d1b3f1f836c4762684df48c6e076f074 doc_id: 910844 cord_uid: d8ekj8rj In Japan, in response to the spread of the new coronavirus disease (COVID-19), a ‘new normal’ in the era of the COVID-19 was proposed by the government, which calls for thorough wearing of masks as an infection control measure in the era of the COVID-19, but related heat illness has been a great concern this summer. We applied quasi-Poisson regression models to the daily number of emergency transportations due to heat illness from 2008 to 2020 from the Fire and Disaster Management Agency, Ministry of Internal Affairs and Communications, Japan, to estimate the expected weekly number of emergency transportations from heat illness, with adjustment for their long-term trend and the weather conditions, including temperatures. We found that, at the national level, the number of heat illness emergency transports did not significantly increase or decrease from the annual trend in 2020. By prefecture, on the other hand, there were some prefectures in which the number of heat illness emergency transports was less than the average year, and most of them were in the week of August 10–16. By age group, the number of heat illness emergency transports in the 0–17 and 18–64 age groups was particularly low in some prefectures, and by severity, those in mild cases was particularly low. A caution is necessary that there is a possibility that a decrease in cases possibly associated with COVID-19 measures, such as, outdoor activity restrictions at schools/universities and cancellation of public events, may offset the possible increase in heat illness cases occurring elsewhere associated with wearing masks. Given that the end of the COVID-19 pandemic is not expected yet, continuous and appropriate awareness-raising activities to prevent heat-related illness remain important. • Under the 'new normal' lifestyle calling for the mask wearing as a COVID-19 control measure, heat illness is a concern. • We estimated the expected weekly number of emergency transportations from heat illness. • By prefecture, age, and severity, there were some weeks where decreased cases were observed. • The decrease in the cases was possibly associated with COVID-19 measures, such as, outdoor activity restrictions. • Continuous and appropriate awarenessraising activities to prevent heat-related illness remain important. a b s t r a c t a r t i c l e i n f o In recent years, the increased risk of heat illness has become a global policy issue due to high temperature associated with global warming and the heat island effect in large cities (World Health Organization, 2018) . When the core temperature elevates, heat illness can develop to heat stroke, a life threatening injury that necessitates intensive neurological care. The latest Global Burden of Disease (GBD) study reported 300,000 deaths worldwide were attributed to high temperature, an increase of approximately 50% from 1990 (GBD 2019 Risk Factors Collaborators, 2020 . In Japan, 1288 deaths from heat stroke were reported in 2018, and over 80% of them were in the elderly aged over 65 years old (Ministry of Health, Labour and Welfare, n.d.) . In Japan, in response to the spread of the new coronavirus disease (COVID-19), a 'new normal' in the era of COVID-19 was proposed at the Expert Meeting on Novel Coronavirus Disease Control held on May 4, 2020 (Ministry of Health, Labour and Welfare, 2020). It calls for each person to practice a lifestyle that incorporates enhanced measures against infectious diseases, such as ensuring physical distance, wearing a mask, and thorough hand washing and avoiding settings characterized by the "3Cs" (closed spaces, crowded places, and close-contact settings). On the other hand, the Ministry of Health, Labour and Welfare (MHLW) and Ministry of the Environment (MOE) have jointly called on local governments to take extra precautions to prevent heat stroke while taking measures against infectious diseases by wearing masks. Yokobori, 2020) . In a nationwide survey conducted by the MHLW on August 12-13, 2020, using a social networking service, 82.5% of the more than 15 million respondents reported that they were thoroughly wearing masks as a COVID-19 countermeasure (LINE Corporation, 2020) . Wearing a mask has been found to increase body temperature near the face, and may also make breathing difficult and increase heart and respiratory rates (Yokobori, 2020; Johnson, 2016; Samannan et al., 2020) , and we hypothesize that the habit of wearing masks in the 'new normal' may contribute to an increased risk of heat illness in the summer (NHK, 2020) . An increase in the number of heat illness-related emergency transferees and visits to medical institutions could place additional burdens on medical institutions dealing with new coronavirus infections. In this study, we analyzed data on the number of people transported to emergency departments due to heat illness by prefecture in 2020 during the COVID-19 pandemic, which were compared with that in previous years to see the possible change in the heat illness risk in the 'new normal', where the wearing of masks as a measure against COVID-19 has become the norm. With no end to the COVID-19 pandemic in sight, this study will be useful for examining advanced countermeasures against heat illness and the burden of heat illness on the emergency medical system from next year onward. We obtained the daily number of emergency transportations due to heat illness (diagnosed in the emergency departments) from 2008 to 2020 from the Fire and Disaster Management Agency, Ministry of Internal Affairs and Communications, Japan (Fire and Disaster Management Agency, n.d.). The diagnoses made for patients following emergency transportation for heat illness was not a definitive diagnosis, but the expert opinion of the physician carrying out initial examinations. A quasi-Poisson regression was used to estimate the expected weekly number of emergency transportations from heat illness, with adjustment for their long-term trend as well as the weather conditions including temperatures (Japan Meteorological Agency, n.d.). The FluMOMO method was applied for the estimation of parameters in the regression, developed by the EuroMOMO (European mortality monitoring activity) group (Nielsen et al., 2013; Nielsen et al., 2018) . Further details are provided in the Supplementary material. We set the point estimate and upper bound of the two-sided 95% prediction interval as the threshold for excess transportations (an increase in cases that is higher than would be expected under normal circumstances), and the point estimate and lower bound for exiguous transportations (a decrease in cases that is lower than would be expected under normal circumstances). A range for excess/exiguous transportations was then obtained from the differences between the observed number of transportations and each of these thresholds. To obtain the national level of excess transportations for each week, we summed the observed and the expected number of excess transportations separately across all prefectures in each week, and computed the weekly differences for the country. The percent excess and deficit were defined as the number of excess and exiguous transportations divided by the threshold, respectively. Note that compared with the expected numbers, a threshold set using the two-sided upper and lower limits provides a more conservative approach to determine excess and exiguous transportations. We considered only cases during the July-September epidemiologic weeks as determined by the National Institute of Infectious Diseases (National Institute of Infectious Diseases, n.d.). Analysis was also performed by age group and severity level of heat illness at the initial diagnosis in the emergency departments. There were three age groups considered: children and adolescents (under the age of 18), working age adults (aged between 18 and 64), and older adults (aged 65 and older). The severity was classified into three categories: mild (cases not requiring hospitalization), moderate (cases other than mild or severe), and severe (cases requiring hospitalization for at least three weeks or cases of death). These groups/categories and definitions were based on the data availability and the number of cases. All analyses were performed using R (version 3.6.3). For the national level, there were no weeks in 2020 where the observed number of emergency transportations due to heat illness exceeded the 95% upper bound of the expected number or fell below the 95% lower bound. Similar results were obtained for analyses performed by age group and severity level of heat illness. Weekly observed and 95% upper and lower bounds of the expected weekly number of emergency transportations due to heat illness in Japan since 2017 for all age groups and by age group and severity level of heat illness are presented in Figs. 1 and 2, respectively, and their exact values in 2020 are provided in Table 1 . By prefecture, as a whole, there were no weeks in 2020 where the number of observed emergency transportations exceeded the 95% upper bound in all 47 prefectures. On the other hand, weeks where the number of observed emergency transportations fell below the 95% lower bound were observed in 14 prefectures, most of which were in the week of August 10-16 (Supplementary fig. 1 ). By age group, the number of observed emergency transportations exceeding the 95% upper bound was observed only in the week of August 23-30 in Aomori Prefecture in the children and adolescents group (excess transportations 3-25; percent excess 11.85-111.86) (Supplementary fig. 2 ). On the other hand, weeks with the number of observed transportations below the 95% lower bound was observed in 15 prefectures in the children and adolescents group and in 16 prefectures in the working age adults group, while those were observed in only three prefectures in the older adults group. They were most common in all groups during the week of August 10-16. Weekly observed and excess and exiguous number of emergency transportations due to heat illness in 2020 for all and by age group and severity level are presented in Supplementary table 1. Furthermore, by severity level, the observed number of emergency transportations in excess of the 95% upper bound was observed only in the week of August 23-30 in Toyama Prefecture for the mild level (excess transportations 4-44; percent excess 5.90-78.73) (Supplementary fig. 2 ). For moderate levels, they were found in the week of July 20-26 in Wakayama and Ehime Prefectures (1-12; 6.59-163.91, and 1-17; 3.46-141.28, respectively), and for severe levels in the week of July 13-19 in Kyoto Prefecture (1-2; 86.58-1272.59) and in the week of July 20-26 in Tottori Prefecture (1-2; 136.38-1180.29 ). On the other hand, the number of observed emergency transportations fell below the 95% lower bound in 15 prefectures in the mild level, three prefectures in the moderate level, and five prefectures in the severe level. They were most frequently observed during the week of September 1-6 at moderate levels, and during the week of August 10-16 at mild and severe levels. We found that, at the national level, the number of heat illness emergency transports did not significantly increase or decrease from the annual trend in 2020. By prefecture, on the other hand, there were some prefectures in which the number of heat illness emergency transports was less than the average year, and most of them were in the week of August 10-16. By age group, the number of heat illness emergency transports in the 0-17 and 18-64 age groups was particularly low in some prefectures, and by severity, those in mild cases was particularly low. This means that the cause and place of heat illness occurrence have changed in some prefectures since the COVID-19 pandemic, especially among children and adolescents as well as for moderate cases. The results of this study suggest that while there is no statistical evidence suggesting a change in the number of emergency transportations due to heat illness in the 'new normal' in which the wearing of masks as a measure against COVID-19 has become the norm, subgroup-specific numbers were sometimes less than previous years. In particular, the decline in children and adolescents in August-the summer vacation season in Japan-might be partially due to cancellation or postponement of various public events (such as cultural, sports and festivals) associated with the COVID-19 epidemic and/or restrictions on outdoor activities at schools/universities, including school club activities. Indeed, the proportion of heat illness cases occurring indoors in public places in August was 8.62%, 9.65% and 9.43% between 2017 and 2019, respectively, compared with 6.98% in 2020; and those occurring outdoors in public places accounted for 13.16%, 13.96%, and 11.63%, respectively, between 2017 and 2019, compared with 9.58% in 2020 (Fire and Disaster Management Agency, n.d.). In addition, those at educational facilities were 7.05%, 6.41%, 5.19%, and 4.38% for 2017-2020, respectively (Fire and Disaster Management Agency, n.d.). Data on human mobility patterns, which are affected by social distancing and other public health measures during the COVID-19 pandemic, if taken into account in our analytical models, could further support this interpretation, but unfortunately there are no such data available that have been monitored over the long term prior to the pandemic and could be included in the models. Cancellation of sporting and traditional events due to COVID-19 countermeasures may have revealed a very significant heat illness risk for children and working generations, which is evident from the significant reduction in heat illness related transportations in these age groups in one specific week in August. The number of heat illness patients transported to emergency departments has been on an upward trend every year (Supplementary table 2 and cultural events in the middle of summer may carry a large toll of avoidable heat illness. As Japan continues to warm, this toll is likely to grow and suggests the need to mitigate the health consequences of holding various summer events at the same time every year in accordance with tradition. Municipalities, schools and community organizations in Japan may need to consider taking measures to reduce this toll, including staggering the holding time to earlier or later in summer. A point to be noted in the interpretation of this analysis is that the decrease in the number of heat illness in public places due to the selfrestraint of public events, etc. or at schools, as mentioned above, may offset the possible increase in heat illness cases in other places due to the thorough wearing of masks (Yokobori, 2020; Johnson, 2016; Samannan et al., 2020) , and as a whole, the excess may not be observed. In fact, the incidence on public roads such as general roads and sidewalks between July and September may have increased in 2020: 13. 17%, 13.19%, 15.58%, 17.28 for 2017-2020, respectively (Fire and Disaster Management Agency, n.d.) . Unfortunately, as one of the limitations of our study, data on the locations of heat illness occurrence have been available only since 2017, so rigorous excess/exiguous is not possible. There was concern about increasing risks of heat-related illness at home among the elderly, as maintenance of essential health services became challenging in Japan due to the COVID-19 pandemic (Han et al., 2020; World Health Organization, 2020) . Interrupted access to outpatient long-term day care, short-stay admission services, home-visit long-term care, home-visit nursing, etc., may have resulted in older people spending more time at home, making their health worse (Japan Federation of Kaigo Business Providers, 2020). In this context, it is worth noting that the number of heat illness emergency transports among the older adults group did not significantly increase this summer. However, efforts to improve the behavior and knowledge of elderly people to prevent heat-related illness remain important, such as use of air conditioners at night, adequate fluid intake, reduced summer activities, use of hats and parasols, etc., through heat-health warnings and targeted interventions (Takahashi et al., 2015) . Other limitations of our study include that there was no data aggregated by both age group and severity level. Under the COVID -19 pandemic, identifying the risk of heat illness by severity and age (and additionally, by location) can provide important policy lessons. In addition, the heat illness cases analyzed in this study are only those transported to emergency departments and do not include cases in which patients visited the hospital or clinic in person, complained of feeling ill, and were diagnosed with heat illness. However, they are very different in terms of clinical severity and we do not believe that this limitation is significant enough to affect the implications of this study. The 'new normal' which requires thorough mask wearing for preventing COVID-19 infection was introduced in Japan. While there is no statistical evidence suggesting a change in the number of emergency transportations due to heat illness in the summer of 2020, subgroupspecific numbers were sometimes less than previous years. It should be noted that the decrease in the cases possibly associated with COVID-19 measures, such as, outdoor activity restrictions at schools/ universities and cancellation of public events, may offset the possible increase in heat illness cases occurring elsewhere associated with wearing masks. Since the burden on the health system is still increasing due to the COVID-19 response and there has been an annual upward trend in Table 1 Weekly number of observed, excess (percent), and exiguous (percent) emergency transportations due to heat illness in Japan in 2020 for all and by age group and severity level of heat illness at the initial diagnosis in the emergency department. Week ending date Observed Excess Percent excess Exiguous Percent deficit (continued on next page) the incidence of heat illness in Japan, the risk of heat illness in the summer after next year cannot be underestimated at all. As the end of the COVID-19 pandemic is not expected yet, continuous and appropriate awareness-raising activities are necessary. Ethical approval was not required for this secondary analysis of publicly available data. A range for excess/exiguous transportations was obtained from the differences between the observed number of transportations and upper/lower bound of the two-sided 95% prediction interval. Kentaro Matsuura: Conceptualization, Methodology, Software, Validation, Formal analysis, Investigation, Resources, Data curation, Writing -original draft, Writing -review & editing, Visualization. Koji Makiyama: Conceptualization, Methodology, Software, Validation, Formal analysis, Investigation, Resources, Data curation, Writing -original draft, Writing -review & editing, Visualization. Takayuki Kawashima: Conceptualization, Methodology, Software, Validation, Formal analysis, Investigation, Resources, Data curation, Writing -original draft, Writing -review & editing. Daisuke Yoneoka: Conceptualization, Methodology, Software, Validation, Formal analysis, Investigation, Resources, Data curation, Writing -original draft, Writing -review & editing, Visualization. Akifumi Eguchi: Conceptualization, Methodology, Software, Validation, Formal analysis, Investigation, Resources, Data curation, Writing -original draft, Writing -review & editing, Visualization. Yumi Kawamura: Conceptualization, Methodology, Software, Validation, Formal analysis, Investigation, Resources, Data curation, Writing -original draft, Writing -review & editing, Visualization. Stuart Gilmour: Writing -review & editing, Supervision. Haruka Sakamoto: Writing -original draft, Writing -review & editing. 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