【 摘 要 】

Background

The Great East Japan Earthquake of magnitude 9.0 that struck on 11 March 2011 resulted in more than 18000 deaths or cases of missing persons. The large-scale tsunami that followed the earthquake devastated many coastal areas of the Tohoku region, including Miyagi Prefecture, and many residents of the tsunami-affected areas were compelled to reside in evacuation centres (ECs). In Japan, seasonal influenza epidemics usually occur between December and March. At the time of the Great East Japan Earthquake on 11 March 2011, influenza A (H3N2) was still circulating and there was a heightened concern regarding severe outbreaks due to influenza A (H3N2).

Methods

After local hospital staff and public health nurses detected influenza cases among the evacuees, an outbreak investigation was conducted in five ECs that had reported at least one influenza case from 23 March to 11 April 2011. Cases were confirmed by point-of-care tests and those residues were obtained and subjected to reverse transcription PCR and/or real time RT-PCR for sub-typing of influenza.

Results

There were 105 confirmed cases detected during the study period with a mean attack rate of 5.3% (range, 0.8%–11.1%). An epidemiological tree for two ECs demonstrated same-room and familial links that accounted for 88.5% of cases. The majority of cases occurred in those aged 15-64 years, who were likely to have engaged in search and rescue activities. No deaths were reported in this outbreak. Familial link accounted for on average 40.5% of influenza cases in two ECs and rooms where two or more cases were reported accounted for on average 85% in those ECs. A combination of preventative measures, including case cohorting, personal hygiene, wearing masks, and early detection and treatment, were implemented during the outbreak period.

Conclusions

Influenza can cause outbreaks in a disaster setting when the disaster occurs during an epidemic influenza season. The transmission route is more likely to be associated with sharing room and space and with familial links. The importance of influenza surveillance and early treatments should be emphasized in EC settings for implementing preventive control measures.

【 授权许可】

   
2014 Kamigaki et al.; licensee BioMed Central Ltd.

【 预 览 】

附件列表

Files	Size	Format	View
20150413023412826.pdf	332KB	PDF	download
Figure 2.	78KB	Image	download
Figure 1.	30KB	Image	download

【 图 表 】

【 参考文献 】

• [1]National Police Agency of Japan: Damage situation and police countermeasureas associated with 2011 Tohoku district-off the Pacific Ocean Earthquake. June 27, 2012. http://www.npa.go.jp/archive/keibi/biki/higaijokyo_e.pdf webcite (in Japanese)
• [2]Miyagi Prefecture: Updates of evacuation situation and earthquake dameges in Miyagi Prefecture as of 11AM, 15 March, 2011. http://www.pref.miyagi.jp/soshiki/kikitaisaku/km-higaizyoukyou3.html webcite (in Japanese)
• [3]Statistics Bureau Ministry of Internal Affairs and Communications: 2010 Population census. http://www.stat.go.jp/english/data/kokusei/2010/summary.htm webcite (in Japanese)
• [4]Yamanda S, Hanagama M, Kobayashi S, Satou H, Tokuda S, Niu K, Yanai M: The impact of the 2011 Great East Japan Earthquake on hospitalisation for respiratory disease in a rapidly aging society: a retrospective descriptive and cross-sectional study at the disaster base hospital in Ishinomaki. BMJ Open 2013, 3(1):e000865.
• [5]Ligon BL: Infectious diseases that pose specific challenges after natural disasters: a review. Semin Pediatr Infect Dis 2006, 17(1):36-45.
• [6]Mimura S, Kamigaki T, Oshitani H: Infectious diseas risk after the Great East Japan Earthquake. J Dis Res 2012, 7(6):741-745.
• [7]Bellos A, Mulholland K, O’Brien KL, Qazi SA, Gayer M, Checchi F: The burden of acute respiratory infections in crisis-affected populations: a systematic review. Confl Heal 2010, 4:3. BioMed Central Full Text
• [8]Kouadio IK, Aljunid S, Kamigaki T, Hammad K, Oshitani H: Infectious diseases following natural disasters: prevention and control measures. Expert Rev Anti Infect Ther 2012, 10(1):95-104.
• [9]Gu Y, Shimada T, Yasui Y, Tada Y, Kaku M, Okabe N: National surveillance of influenza-associated encephalopathy in Japan over six years, before and during the 2009–2010 influenza pandemic. PLoS One 2013, 8(1):e54786.
• [10]Okabe N, Yamashita K, Taniguchi K, Inouye S: Influenza surveillance system of Japan and acute encephalitis and encephalopathy in the influenza season. Pediatr Int 2000, 42(2):187-191.
• [11]Ministry of Health, Labour and Welfare: Influenza 2011/2012 season in Japan [in Japanese]. Infect Agents Surveill Rep 2012, 33(11):285-287.
• [12]Charu V, Viboud C, Simonsen L, Sturm-Ramirez K, Shinjoh M, Chowell G, Miller M, Sugaya N: Influenza-related mortality trends in Japanese and American seniors: evidence for the indirect mortality benefits of vaccinating schoolchildren. PLoS One 2011, 6(11):e26282.
• [13]Ministry of Health, Labour and Welfare: Influenza updates [in Japanese]. Infect Dis Wkly Rep 2011, 13(10):11-13.
• [14]Tohma K, Suzuki A, Otani K, Okamoto M, Nukiwa N, Kamigaki T, Kawamura K, Nakagawa H, Oshitani H: Monitoring of influenza viruses in the aftermath of the Great East Japan earthquake. Jpn J Infect Dis 2012, 65(6):542-544.
• [15]Hatta M, Endo S, Tokuda K, Kunishima H, Arai K, Yano H, Ishibashi N, Aoyagi T, Yamada M, Inomata S, et al.: Post-tsunami outbreaks of influenza in evacuation centers in miyagi prefecture, Japan. Clin Infect Dis 2012, 54(1):e5-e7.
• [16]Wu P, Goldstein E, Ho LM, Yang L, Nishiura H, Wu JT, Ip DK, Chuang SK, Tsang T, Cowling BJ: Excess mortality associated with influenza A and B virus in Hong Kong, 1998–2009. J Infect Dis 2012, 206(12):1862-1871.
• [17]Simonsen L, Clarke MJ, Williamson GD, Stroup DF, Arden NH, Schonberger LB: The impact of influenza epidemics on mortality: introducing a severity index. Am J Public Health 1997, 87(12):1944-1950.
• [18]Lemaitre M, Carrat F, Rey G, Miller M, Simonsen L, Viboud C: Mortality burden of the 2009 A/H1N1 influenza pandemic in France: comparison to seasonal influenza and the A/H3N2 pandemic. PLoS One 2012, 7(9):e45051.
• [19]R Development Core Team: R: a language and environment for statistical computing. Vienna, Austria: R Foundation for Statistical Computing; 2012.
• [20]Watson JT, Gayer M, Connolly MA: Epidemics after natural disasters. Emerg Infect Dis 2007, 13(1):1-5.
• [21]Chin CS, Sorenson J, Harris JB, Robins WP, Charles RC, Jean-Charles RR, Bullard J, Webster DR, Kasarskis A, Peluso P, et al.: The origin of the Haitian cholera outbreak strain. N Engl J Med 2011, 364(1):33-42.
• [22]Hendriksen RS, Price LB, Schupp JM, Gillece JD, Kaas RS, Engelthaler DM, Bortolaia V, Pearson T, Waters AE, Upadhyay BP, et al.: Population genetics of Vibrio cholerae from Nepal in 2010: evidence on the origin of the Haitian outbreak. mBio 2011, 2(4):e00157-00111.
• [23]Reimer AR, Van Domselaar G, Stroika S, Walker M, Kent H, Tarr C, Talkington D, Rowe L, Olsen-Rasmussen M, Frace M, et al.: Comparative genomics of Vibrio cholerae from Haiti, Asia, and Africa. Emerg Infect Dis 2011, 17(11):2113-2121.
• [24]Eames KT, Tilston NL, Edmunds WJ: The impact of school holidays on the social mixing patterns of school children. Epidemics 2011, 3(2):103-108.
• [25]Monto AS: Epidemiology of influenza. Vaccine 2008, 26(Suppl 4):D45-D48.