SEAMHCRD deterministic compartmental model based on clinical stages of infection for COVID-19 pandemic in Sultanate of Oman

SEAMHCRD deterministic compartmental model based on clinical stages of infection for COVID-19 pandemic in Sultanate of Oman

Abstract The present novel coronavirus (COVID-19) infection has engendered a worldwide crisis on an enormous scale within a very short period. The effective solution for this pandemic is to recognize the nature and spread of the disease so that appropriate policies can be framed. Mathematical modell...

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Main Authors: Abraham Varghese, Shajidmon Kolamban, Vinu Sherimon, Eduardo M. Lacap, Saad Salman Ahmed, Jagath Prasad Sreedhar, Hasina Al Harthi, Huda Salim Al Shuaily
Format: Article
Language:English
Published: Nature Publishing Group 2021-06-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-021-91114-5
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spelling doaj-bbe254e45b4d49198afb78f9cec364c42021-06-13T11:37:21ZengNature Publishing GroupScientific Reports2045-23222021-06-0111111910.1038/s41598-021-91114-5SEAMHCRD deterministic compartmental model based on clinical stages of infection for COVID-19 pandemic in Sultanate of OmanAbraham Varghese0Shajidmon Kolamban1Vinu Sherimon2Eduardo M. Lacap3Saad Salman Ahmed4Jagath Prasad Sreedhar5Hasina Al Harthi6Huda Salim Al Shuaily7Department of Information Technology, Faculty of Mathematics, University of Technology and Applied SciencesDepartment of Information Technology, Faculty of Mathematics, University of Technology and Applied SciencesDepartment of Information Technology, Faculty of IT, University of Technology and Applied SciencesDepartment of Information Technology, Faculty of Statistics, University of Technology and Applied SciencesDepartment of Information Technology, Faculty of Mathematics, University of Technology and Applied SciencesDepartment of Information Technology, Faculty of Statistics, University of Technology and Applied SciencesHead of Research, Royal HospitalDepartment of Information Technology, Faculty of IT, University of Technology and Applied SciencesAbstract The present novel coronavirus (COVID-19) infection has engendered a worldwide crisis on an enormous scale within a very short period. The effective solution for this pandemic is to recognize the nature and spread of the disease so that appropriate policies can be framed. Mathematical modelling is always at the forefront to understand and provide an adequate description of the transmission of any disease. In this research work, we have formulated a deterministic compartmental model (SEAMHCRD) including various stages of infection, such as Mild, Moderate, Severe and Critical to study the spreading of COVID-19 and estimated the model parameters by fitting the model with the reported data of ongoing pandemic in Oman. The steady-state, stability and final pandemic size of the model has been proved mathematically. The various transmission as well as transition parameters are estimated during the period from June 4th to July 30th, 2020. Based on the currently estimated parameters, the pandemic size is also predicted for another 100 days. Sensitivity analysis is performed to identify the key model parameters, and the parameter gamma due to contact with the symptomatic moderately infected is found to be more significant in spreading the disease. Accordingly, the corresponding basic reproduction number has also been computed using the Next Generation Matrix (NGM) method. As the value of the basic reproduction number (R0) is 0.9761 during the period from June 4th to July 30th, 2020, the disease-free equilibrium is stable. Isolation and tracing the contact of infected individuals are recommended to control the spread of disease.https://doi.org/10.1038/s41598-021-91114-5
collection DOAJ
language English
format Article
sources DOAJ
author Abraham Varghese
Shajidmon Kolamban
Vinu Sherimon
Eduardo M. Lacap
Saad Salman Ahmed
Jagath Prasad Sreedhar
Hasina Al Harthi
Huda Salim Al Shuaily
spellingShingle Abraham Varghese
Shajidmon Kolamban
Vinu Sherimon
Eduardo M. Lacap
Saad Salman Ahmed
Jagath Prasad Sreedhar
Hasina Al Harthi
Huda Salim Al Shuaily
SEAMHCRD deterministic compartmental model based on clinical stages of infection for COVID-19 pandemic in Sultanate of Oman
Scientific Reports
author_facet Abraham Varghese
Shajidmon Kolamban
Vinu Sherimon
Eduardo M. Lacap
Saad Salman Ahmed
Jagath Prasad Sreedhar
Hasina Al Harthi
Huda Salim Al Shuaily
author_sort Abraham Varghese
title SEAMHCRD deterministic compartmental model based on clinical stages of infection for COVID-19 pandemic in Sultanate of Oman
title_short SEAMHCRD deterministic compartmental model based on clinical stages of infection for COVID-19 pandemic in Sultanate of Oman
title_full SEAMHCRD deterministic compartmental model based on clinical stages of infection for COVID-19 pandemic in Sultanate of Oman
title_fullStr SEAMHCRD deterministic compartmental model based on clinical stages of infection for COVID-19 pandemic in Sultanate of Oman
title_full_unstemmed SEAMHCRD deterministic compartmental model based on clinical stages of infection for COVID-19 pandemic in Sultanate of Oman
title_sort seamhcrd deterministic compartmental model based on clinical stages of infection for covid-19 pandemic in sultanate of oman
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2021-06-01
description Abstract The present novel coronavirus (COVID-19) infection has engendered a worldwide crisis on an enormous scale within a very short period. The effective solution for this pandemic is to recognize the nature and spread of the disease so that appropriate policies can be framed. Mathematical modelling is always at the forefront to understand and provide an adequate description of the transmission of any disease. In this research work, we have formulated a deterministic compartmental model (SEAMHCRD) including various stages of infection, such as Mild, Moderate, Severe and Critical to study the spreading of COVID-19 and estimated the model parameters by fitting the model with the reported data of ongoing pandemic in Oman. The steady-state, stability and final pandemic size of the model has been proved mathematically. The various transmission as well as transition parameters are estimated during the period from June 4th to July 30th, 2020. Based on the currently estimated parameters, the pandemic size is also predicted for another 100 days. Sensitivity analysis is performed to identify the key model parameters, and the parameter gamma due to contact with the symptomatic moderately infected is found to be more significant in spreading the disease. Accordingly, the corresponding basic reproduction number has also been computed using the Next Generation Matrix (NGM) method. As the value of the basic reproduction number (R0) is 0.9761 during the period from June 4th to July 30th, 2020, the disease-free equilibrium is stable. Isolation and tracing the contact of infected individuals are recommended to control the spread of disease.
url https://doi.org/10.1038/s41598-021-91114-5
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