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Estimation of the probable outbreak size of novel coronavirus (COVID-19) in social gathering events and industrial activities

Motasem N. Saidan, ‎Mohammad A. Shbool, Omar Suleiman Arabeyyat, Sameh Al‐Shihabi, Yousef Abdallat, Mahmoud A. Barghash, Hakam Saidan

2020International Journal of Infectious Diseases44 citationsDOIOpen Access PDF

Abstract

BackgroundThe reproduction number (R0) is vital in epidemiology to estimate the number of infected people and trace close contacts. R0 values vary depending on social activity and type of gathering events that induce infection transmissibility and its pathophysiology dependence.ObjectivesIn this study, we estimated the probable outbreak size of COVID-19 clusters mathematically using a simple model that can predict the number of COVID-19 cases as a function of time.MethodsWe proposed a mathematical model to estimate the R0 of COVID-19 in an outbreak occurring in both local and international clusters in light of published data. Different types of clusters (religious, wedding, and industrial activity) were selected based on reported events in different countries between February and April 2020.ResultsThe highest R0 values were found in wedding party events (5), followed by religious gathering events (2.5), while the lowest value was found in the industrial cluster (2). In return, this will enable us to assess the trend of coronavirus spread by comparing the model results and observed patterns.ConclusionsThis study provides predictive COVID-19 transmission patterns in different cluster types based on different R0 values. This model offers a contact-tracing task with the predicted number of cases, to decision-makers; this would help them in epidemiological investigations by knowing when to stop.

Topics & Concepts

OutbreakCoronavirus disease 2019 (COVID-19)Contact tracingCoronavirusBasic reproduction numberSevere acute respiratory syndrome coronavirus 2 (SARS-CoV-2)Cluster (spacecraft)Transmissibility (structural dynamics)EconometricsStatisticsTransmission (telecommunications)Social distanceGeography2019-20 coronavirus outbreakDemographyComputer scienceMathematicsVirologyBiologyMedicineInfectious disease (medical specialty)DiseaseSociologyPhysicsTelecommunicationsProgramming languageVibration isolationPopulationQuantum mechanicsPathologyVibrationCOVID-19 epidemiological studiesInfection Control and VentilationSARS-CoV-2 and COVID-19 Research
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