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BMC infectious diseases
Oct 30, 2021;21 (1): 1124.

Spatiotemporal distribution of COVID-19 during the first 7 months of the epidemic in Vietnam.

Toshie Manabe, Dung Phan, Yasuhiro Nohara, Dan Kambayashi, Thang Huu Nguyen, Thanh Van Do, Koichiro Kudo
Author Information
  1. Toshie Manabe: Nagoya City University Graduate School of Medicine, 1 Kawasumi, Mizuho-cho, Mizuho-ku, Nagoya, Aichi, 467-8601, Japan. manabe@kklabo.gr.jp.
  2. Dung Phan: Faculty of Pharmacy and Pharmaceutical Sciences, Monash University, Melbourne, VIC, Australia.
  3. Yasuhiro Nohara: Utsunomiya University Center for Regional Design, Tochigi, Japan.
  4. Dan Kambayashi: Nagoya City University Graduate School of Medicine, 1 Kawasumi, Mizuho-cho, Mizuho-ku, Nagoya, Aichi, 467-8601, Japan. ORCID
  5. Thang Huu Nguyen: School for Preventive Medicine and Public Health, Hanoi Medical University, Hanoi, Vietnam.
  6. Thanh Van Do: Center for Tropical Diseases, Bach Mai Hospital, Hanoi, Vietnam.
  7. Koichiro Kudo: Yurin Hospital, Tokyo, Japan.
PMID: 34717588 DOI: 10.1186/s12879-021-06822-0

Abstract

BACKGROUND: Understanding the spatiotemporal distribution of emerging infectious diseases is crucial for implementation of control measures. In the first 7 months from the occurrence of COVID-19 pandemic, Vietnam has documented comparatively few cases of COVID-19. Understanding the spatiotemporal distribution of these cases may contribute to development of global countermeasures.
METHODS: We assessed the spatiotemporal distribution of COVID-19 from 23 January to 31 July 2020 in Vietnam. Data were collected from reports of the World Health Organization, the Vietnam Ministry of Health, and related websites. Temporal distribution was assessed via the transmission classification (local or quarantined cases). Geographical distribution was assessed via the number of cases in each province along with their timelines. The most likely disease clusters with elevated incidence were assessed via calculation of the relative risk (RR).
RESULTS: Among 544 observed cases of COVID-19, the median age was 35 years, 54.8% were men, and 50.9% were diagnosed during quarantine. During the observation period, there were four phases: Phase 1, COVID-19 cases occurred sporadically in January and February 2020; Phase 2, an epidemic wave occurred from the 1st week of March to the middle of April (Wave 1); Phase 3, only quarantining cases were involved; and Phase 4, a second epidemic wave began on July 25th, 2020 (Wave 2). A spatial cluster in Phase 1 was detected in Vinh Phuc Province (RR, 38.052). In Phase 2, primary spatial clusters were identified in the areas of Hanoi and Ha Nam Province (RR, 6.357). In Phase 4, a spatial cluster was detected in Da Nang, a popular coastal tourist destination (RR, 70.401).
CONCLUSIONS: Spatial disease clustering of COVID-19 in Vietnam was associated with large cities, tourist destinations, people's mobility, and the occurrence of nosocomial infections. Past experiences with outbreaks of emerging infectious diseases led to quick implementation of governmental countermeasures against COVID-19 and a general acceptance of these measures by the population. The behaviors of the population and the government, as well as the country's age distribution, may have contributed to the low incidence and small number of severe COVID-19 cases.

Keywords

COVID-19 Disease clustering Emerging infectious disease Nosocomial infection Spatiotemporal analysis

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Grants

  1. #20KK0218/Japan Society for the Promotion of Science
  2. Initiative Program/Toyota Foundation
  3. Mirai Program #20345310/Japan Science and Technology Agency

MeSH Term

Adult
COVID-19
Humans
Male
Pandemics
Quarantine
SARS-CoV-2
Vietnam
Journal Article

Word Cloud

Created with Highcharts 10.0.0COVID-19casesdistributionPhaseVietnamassessedRRspatiotemporalinfectious2020viadisease12epidemicspatialUnderstandingemergingdiseasesimplementationmeasuresfirst7 monthsoccurrencemaycountermeasuresJanuaryJulyHealthnumberclustersincidenceageoccurredwaveWave4clusterdetectedProvincetouristclusteringpopulationSpatiotemporalBACKGROUND:crucialcontrolpandemicdocumentedcomparativelycontributedevelopmentglobalMETHODS:2331DatacollectedreportsWorldOrganizationMinistryrelatedwebsitesTemporaltransmissionclassificationlocalquarantinedGeographicalprovincealongtimelineslikelyelevatedcalculationrelativeriskRESULTS:Among544observedmedian35 years548%men509%diagnosedquarantineobservationperiodfourphases:sporadicallyFebruary1stweekMarchmiddleApril3quarantininginvolvedsecondbegan25thVinhPhuc38052primaryidentifiedareasHanoiHaNam6357DaNangpopularcoastaldestination70401CONCLUSIONS:Spatialassociatedlargecitiesdestinationspeople'smobilitynosocomialinfectionsPastexperiencesoutbreaksledquickgovernmentalgeneralacceptancebehaviorsgovernmentwellcountry'scontributedlowsmallsevereDiseaseEmergingNosocomialinfectionanalysis

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