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Incidence of Acute Respiratory Infections during Disasters in the Absence and Presence of COVID-19 Pandemic

Published online by Cambridge University Press:  11 January 2022

Mana Sugimura
Affiliation:
Department of Public Health and Health Policy, Graduate School of Biomedical and Health Sciences, Hiroshima University, Hiroshima, Japan
Odgerel Chimed-Ochir
Affiliation:
Department of Public Health and Health Policy, Graduate School of Biomedical and Health Sciences, Hiroshima University, Hiroshima, Japan
Yui Yumiya
Affiliation:
Department of Public Health and Health Policy, Graduate School of Biomedical and Health Sciences, Hiroshima University, Hiroshima, Japan
Akihiro Taji
Affiliation:
Department of Public Health and Health Policy, Graduate School of Biomedical and Health Sciences, Hiroshima University, Hiroshima, Japan
Eisaku Kishita
Affiliation:
Hiroshima Prefectural Health and Welfare Bureau, Hiroshima, Japan
Yoko Tsurugi
Affiliation:
Kikuchi Public Health Center, Kumamoto Prefecture, Kikuchi City, Kumamoto, Japan
Koji Kiwaki
Affiliation:
Yatsushiro Public Health Center, Kumamoto Prefecture, Yashiro City, Japan
Akinori Wakai
Affiliation:
National Hospital Organization Headquarters DMAT Secretariat MHLW Japan, Osaka, Japan
Hisayoshi Kondo
Affiliation:
National Hospital Organization Headquarters DMAT Secretariat MHLW Japan, Tokyo, Japan
Kouki Akahoshi
Affiliation:
National Hospital Organization Headquarters DMAT Secretariat MHLW Japan, Tokyo, Japan
Kayoko Chishima
Affiliation:
National Hospital Organization Headquarters DMAT Secretariat MHLW Japan, Tokyo, Japan
Yoshiki Toyokuni
Affiliation:
National Hospital Organization Headquarters DMAT Secretariat MHLW Japan, Tokyo, Japan
Yuichi Koido
Affiliation:
National Hospital Organization Headquarters DMAT Secretariat MHLW Japan, Tokyo, Japan
Tatsuhiko Kubo*
Affiliation:
Department of Public Health and Health Policy, Graduate School of Biomedical and Health Sciences, Hiroshima University, Hiroshima, Japan
*
Correspondence: Tatsuhiko Kubo, MD, PhD Department of Public Health and Health Policy Graduate School of Biomedical and Health Sciences Hiroshima University 1-2-3 Kasumi, Minami-ku, Hiroshima734-0037, Japan E-mail: [email protected]

Abstract

Introduction:

Japan recently experienced two major heavy rain disasters: the West Japan heavy rain disaster in July 2018 and the Kumamoto heavy rain disaster in July 2020. Between the occurrences of these two disasters, Japan began experiencing the wave of the coronavirus disease 2019 (COVID-19) pandemic, providing a unique opportunity to compare the incidence of acute respiratory infection (ARI) between the two disaster responses under distinct conditions.

Sources for Information:

The data were collected by using the standard disaster medical reporting system used in Japan, so-called the Japan-Surveillance in Post-Extreme Emergencies and Disasters (J-SPEED), which reports number and types of patients treated by Emergency Medical Teams (EMTs). Data for ARI were extracted from daily aggregated data on the J-SPEED form and the frequency of ARI in two disasters was compared.

Observation:

Acute respiratory infection in the West Japan heavy rain that occurred in the absence of COVID-19 and in the Kumamoto heavy rain that occurred in the presence of COVID-19 were responsible for 5.4% and 1.2% of the total consultation, respectively (P <.001).

Analysis of Observation and Conclusion:

Between the occurrence of these two disasters, Japan implemented COVID-19 preventive measures on a personal and organizational level, such as wearing masks, disinfecting hands, maintaining social distance, improving room ventilation, and screening people who entered evacuation centers by using hygiene management checklists. By following the basic prevention measures stated above, ARI can be significantly reduced during a disaster.

Type
Field Report
Copyright
© The Author(s), 2022. Published by Cambridge University Press on behalf of the World Association for Disaster and Emergency Medicine

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References

Diaz, JH. The public health impact of hurricanes and major flooding. J La State Med Soc. 2004;156(3):145150.Google Scholar
EM-DAT: The OFDA/CRED International Disaster Database. Disaster Profiles. Centre for Research on the Epidemiology of Disasters web site. http://www.emdat.be/. Accessed June 28, 2021.Google Scholar
The Small and Medium Enterprise Agency. Impact of natural disasters on SMEs. White Paper on Small and Medium Enterprises in Japan. Tokyo, Japan; 2019:398.Google Scholar
Global warming forecast information. Japan’s Meteorological Agency web site. https://www.mlit.go.jp/river/shinngikai_blog/shaseishin/kasenbunkakai/shouiinkai/daikibokouikigouu/3/pdf/daikibokouikigouu_03_s2-3.pdf. Accessed June 24, 2021.Google Scholar
Damage caused by heavy rain and typhoon No. 12 in July 2018. Response status of fire departments (60th report). Japan’s Fire and Disaster Management Agency web site. https://www.fdma.go.jp/disaster/info/items/190820nanagatugouu60h.pdf. Accessed July 7, 2021.Google Scholar
2020 July heavy rain information. Japan’s Fire and Disaster Management Agency web site. https://www.fdma.go.jp/disaster/info/items/210226_ooame56.pdf. Accessed July 7, 2021.Google Scholar
Population of Hiroshima Prefecture. Population Survey of Hiroshima Prefecture. https://www.pref.hiroshima.lg.jp/uploaded/attachment/324826.pdf. Accessed September 24, 2021.Google Scholar
Population of Okayama Prefecture. Summary of Population Census in Okayama Prefecture. https://www.pref.okayama.jp/uploaded/attachment/271894.pdf. Accessed September 24, 2021.Google Scholar
Ehime Prefecture. Estimated population of prefecture. https://www.pref.ehime.jp/toukeibox/datapage/suikeijinkou/2018-07/suikeijinkou-p01.html. Accessed September 24, 2021.Google Scholar
Kumamoto Prefecture. Population of Kumamoto Prefecture. https://www.pref.kumamoto.jp/soshiki/20/50347.html. Accessed September 24, 2021.Google Scholar
Geospatial Information Authority of Japan. Geographic area of prefectures, cities, towns, and villages of Japan. October 2018. https://www.gsi.go.jp/KOKUJYOHO/MENCHO/backnumber/GSI-menseki20181001.pdf. Accessed September 24, 2021.Google Scholar
Japan Meteorological Agency. Monthly value for rainfall. http://www.data.jma.go.jp/obd/stats/etrn/view/monthly_h1.php?prec_no=67&block_no=00&year=2018&month=7&day=&view=p1. Accessed September 24, 2021.Google Scholar
Standard Disaster Medical Record – Report. Joint Committee for Disaster Medical Record of Japan web site. https://jhim-e.com/pdf/saigai.pdf. Accessed July 5, 2021.Google Scholar
2020 July Heavy Rain disaster report. Japan’s Fire and Disaster Management Agency web site. https://www.pref.kumamoto.jp/uploaded/life/90333_127164_misc.pdf. Accessed July 1, 2021.Google Scholar
Tatsuhiko, Kubo. Presented at: first press seminar by researchers of novel coronaviruses; Hiroshima University. https://www.hiroshima-u.ac.jp/system/files/164234/210428_6.pdf. Accessed July 7, 2021.Google Scholar
VD Sande, M, Teunis, P, Sabel, R. Professional and home-made face masks reduce exposure to respiratory infections among the general population. PLoS One. 2008;3(7):e2618.CrossRefGoogle Scholar
Coronavirus disease (COVID-19): children and masks. World Health Organization web site. https://www.who.int/news-room/q-a-detail/q-a-children-and-masks-related-to-covid-19. Accessed June 25, 2021.Google Scholar