症状监测在新型冠状病毒肺炎疫情中的应用进展

doi:10.3969/j.issn.1006-5253.2021.05.001

摘要
图/表
参考文献
相关文章 (6)

全文: PDF (1101 KB) HTML (1 KB)
输出: BibTeX | EndNote (RIS)

摘要新型冠状病毒肺炎疫情在全球范围内的流行，严重危害着人们的身体健康和社会的经济发展，症状监测对防控新型冠状病毒肺炎疫情具有重要意义。本文对相关文献及官方网站数据进行回顾，总结症状监测在新型冠状病毒肺炎防控中的应用进展及存在的不足，为我国未来进行症状监测提供参考。

	服务

	把本文推荐给朋友
	加入我的书架
	加入引用管理器
	E-mail Alert
	RSS
	作者相关文章
	罗纯
	彭爱宇
	宗慧莹
	宁佩珊
	严俊霞
	邓静
	史静琤
	冯湘玲
	黄云
	虞仁和
	李杏莉
	胡国清

关键词 ：疫情, 新型冠状病毒肺炎, 症状监测

Abstract：

.The global epidemic of the new type of coronavirus pneumonia (COVID-19) has caused significant adverse effects on people′s health and social economic development. Syndromic surveillance is of great significance to the prevention and control of COVID-19 epidemic. This article reviewed the data of various documents and official websites, summarized the application progress and deficiencies of syndromic surveillance in the current COVID-19, to make recommendations and provide references for future symptom monitoring.

Key words： epidemic COVID-19 syndromic surveillance

收稿日期: 2021-09-07

通讯作者: 严俊霞，Email：20457456@qq.com

引用本文:

罗纯，彭爱宇，宗慧莹，宁佩珊，严俊霞，邓静，史静琤，冯湘玲，黄云，虞仁和，李杏莉，胡国清. 症状监测在新型冠状病毒肺炎疫情中的应用进展[J]. 中国医院统计, 2021, 28(5): 385-388.
Luo Chun, Peng Aiyu, Zong Huiying, Ning Peishan, Yan Junxia, Deng Jing, Shi Jingcheng, Feng Xiangling, Huang Yun, Yu Renhe, Li Xingli, Hu Guoqing. Progress of syndromic surveillance in COVID-19 epidemic. journal1, 2021, 28(5): 385-388.

链接本文:

http://manu58.magtech.com.cn/Jwk_zgyytj/CN/10.3969/j.issn.1006-5253.2021.05.001 或 http://manu58.magtech.com.cn/Jwk_zgyytj/CN/Y2021/V28/I5/385

［1］SOSIN D M. Draft framework for evaluating syndromic surveillance systems［J］. J Urban Health, 2003, 80( suppl 1):i8-i13.
［2］MAY L, CHRETIEN J P, PAVLIN J A. Beyond traditional surveillance: Applying syndromic surveillance to developing settings: Opportunities and challenges［J］. BMC Public Health, 2009, 9:242.
［3］GONG M C, LIU L, SUN X, et al. Cloud-based system for effective surveillance and control of COVID-19:Useful experiences from Hubei, China［J］. J Med Internet Res, 2020, 22(4):e18948.
［4］WEE L E, SIM X Y J, CONCEICAO E P, et al. Containment of COVID-19 cases among healthcare workers: The role of surveillance, early detection, and outbreak management［J］. Infect Control Hosp Epidemiol, 2020, 41(7):765-771.
［5］DENIS F, GALMICHE S, DINH A, et al. Epidemiological observations on the association between anosmia and COVID-19 infection: Analysis of data from a selfassessment web application［J］. J Med Internet Res, 2020, 22(6):e19855.
［6］LOKUGE K, BANKS E, DAVIS S, et al. Exit strategies: Optimising feasible surveillance for detection, elimination, and ongoing prevention of COVID-19 community transmission［J］. BMC Med, 2021, 19(1):50.
［7］SIM J X Y, CONCEICAO E P, WEE L E, et al. Utilizing the electronic health records to create a syndromic staff surveillance system during the COVID-19 outbreak［J］. Am J Infect Control, 2021, 49(6):685-689.
［8］ENGLAND PUBLIC HEALTH: Syndromic surveillance: systems and analyses［EB/OL］. (2021-01-27)［2021-09-07］. https://www.gov.uk/government/collections/syndromic-surveillance-systems-and-analyses#remote-health-advice-syndromic-surveillance-system.
［9］MENNI C, VALDES A M, FREIDIN M B, et al. Real-time tracking of self-reported symptoms to predict potential COVID-19［J］. Nat Med, 2020, 26(7):1037-1040.
［10］GÜEMES A, RAY S, ABOUMERHI K, et al. A syndromic surveillance tool to detect anomalous clusters of COVID-19 symptoms in the United States［J］. Sci Rep, 2021, 11(1):4660.

［11］LAPOINTE-SHAW L, RADER B, ASTLEY C M, et al. Web and phone-based COVID-19 syndromic surveillance in Canada: A cross-sectional study［J］. PLoS One, 2020, 15(10):e0239886. 
［12］MAHMUD A S, CHOWDHURY S, SOJIB K H, et al. Participatory syndromic surveillance as a tool for tracking COVID-19 in Bangladesh［J］. Epidemics, 2021, 35:100462.
［13］LUO H X, LIE Y C, PRINZEN F W. Surveillance of COVID-19 in the general population using an online questionnaire: Report from 18, 161 respondents in China［J］. JMIR Public Health Surveill, 2020, 6(2):e18576.
［14］KATZ R, MAY L, BAKER J, et al. Redefining syndromic surveillance［J］. J Epidemiol Glob Health, 2011, 1(1):21-31. 
［15］KURIAN S J, BHATTI A U R, ALVI M A, et al. Correlations between COVID-19 cases and google trends data in the United States: A state-by-state analysis［J］. Mayo Clin Proc, 2020, 95(11):2370-2381. 
［16］江震．美国预防突发传染疾病，建立快速预警监测系统［J］．国外医学(卫生经济分册)，2004，21(1)：44-47． 
［17］汪雪洋，张玉，龚文胜．襄阳市新型冠状病毒肺炎疫情期间发热门诊症状监测系统数据分析［J］．公共卫生与预防医学，2020，31(4)：28-30． 
［18］YONEOKA D, TANOUE Y, KAWASHIMA T, et al. Largescale epidemiological monitoring of the COVID-19 epidemic in Tokyo［J］. Lancet Reg Health West Pac, 2020, 3:100016.
［19］MARZAN-RODRIGUEZ M, MORALES L M, MARTINEZ I S, et al. Syndromic surveillance in Puerto Rico during the COVID-19 response: An alternative approach to scarce molecular testing［J］. Am J Public Health, 2020, 110(9):1348-1349. 
［20］GOULD D W, WALKER D, YOON P W. The evolution of BioSense: Lessons learned and future directions［J］. Public Health Rep, 2017, 132(1_suppl):7S-11S. 
［21］[KG*2]〖ZK(]YONEOKA D, KAWASHIMA T, TANOUE Y, et al. Early SNS-based monitoring system for the COVID-19 outbreak in Japan: A population-level observational study［J］. J Epidemiol, 2020, 30(8):362-370.
［22］程瑾，杨晓茹，张群，等．美军症状监测系统ESSENCE典型案例分析及借鉴［J］．军事医学，2014，38(2)：112-116． 
［23］DAI Y Y, WANG J M. Identifying the outbreak signal of COVID-19 before the response of the traditional disease monitoring system［J］. PLoS Negl Trop Dis, 2020, 14(10):e0008758.