SIR model of the COVID-19 pandemic in Colombia
Jia, W., Han, K., Song, Y., (2020) Extended SIR prediction of the epidemics trend of COVID-19 in Italy and compared with Hunan, China, , https://bit.ly/2ycRHeW, medRxiv [Intenet], Citado 25 de marzo de 2020. Disponible en
; Basic reproduction number (source: MeSH, NLM) Colombia Coronavirus infections Pandemics Transmission;(2020), https://bit.ly/2w3uFqm, [Internet] Citado 25 de marzo de, Disponible en2020(Liu, Y., Gayle, A.A., Wilder-Smith, A., The reproductive number of COVID-19 is higher compared to SARS coronavirus (2020) Journal of travel medicine, , https://doi.org/10.1093/jtm/taaa021, Internet, Citado 25 de marzo de 2020, Disponible en)(Revista de Salud Publica): Guan, W.-J., Clinical characteristics of coronavirus disease 2019 in China (2020) N Engl J Med, , https://bit.ly/2JpRuHI, Internet, Citado el 25 de marzo de 2020. Disponible en, Hu, J.X., He, G.H., Liu, T., Risk assessment of exported risk of novel coronavirus pneumonia from Hubei Province (2020) Chinese journal of preventive medicine, 54, p. E017. , https://bit.ly/33WrRrk, [Internet], Citado 25 de marzo de 2020, Disponible en
Article
in Zhu Z.B. zhong C.K. zhang K.X. Epidemic trend of corona viru disease 2019 (COVID-19) in mainland zhina (2020) zh journal of preventive medicine [Internet] 54 p. E022. https://bit.ly/3bA14E0 Citdo 25 de marzo de 2020 Disptnible en
| Scopus | ID: covidwho-828301
ABSTRACT
Objective To develop a prognostic SIR model of the COVID-19 pandemic in Colombia. Materials and Methods A SIR model with a deterministic approach was used to forecast the development of the COVID-19 pandemic in Colombia. The states considered were susceptible (S), infectious (i) and recovered or deceased (R). Population data were obtained from the National Administrative Department of Statistics (DANE) - Population Projections 2018-2020, released in January 2020-, and data on daily confirmed cases of COVID-19 from the National Institute of Health. Different models were proposed varying the basic reproduction number (R0). Results Based on the cases reported by the Ministry of Health, 4 simulated environments were created in an epidemiological SIR model. The time series was extended until May 30, the probable date when 99% of the population will be infected. R0=2 is the basic reproduction number and the closest approximation to the behavior of the pandemic during the first 15 days since the first case report;the worst scenario would occur in the first week of April with R0=3. Conclusions Further mitigation and suppression measures are necessary in the containment and sustained transmission phases, such as increased diagnostic capacity through testing and disinfection of populated areas and homes in isolation. © 2020, Universidad Nacional de Colombia. All rights reserved.
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Databases of international organizations
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Scopus
Type of study:
Diagnostic study
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Experimental Studies
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Prognostic study
Country/Region as subject:
South America
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Colombia
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Journal:
Basic reproduction number (source: MeSH, NLM) Colombia Coronavirus infections Pandemics Transmission
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Document Type:
Article
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