COVID-19 pandemic control: balancing detection policy and lockdown intervention under ICU sustainability

An extended SIR model, including several features of the recent COVID-19 outbreak, is considered: the infected and recovered individuals can either be detected or undetected and we also integrate an intensive care unit (ICU) capacity. We identify the optimal policy for controlling the epidemic dynam...

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Published inMathematical modelling of natural phenomena Vol. 15; p. 57
Main Authors Charpentier, Arthur, Elie, Romuald, Laurière, Mathieu, Tran, Viet Chi
Format Journal Article
LanguageEnglish
Published Les Ulis EDP Sciences 2020
SeriesCoronavirus: Scientific insights and societal aspects
Subjects
Coronaviruses
COVID-19
Disease control
Economic conditions
Economic impact
Epidemic models
Epidemics
Life Sciences
Mathematics
Optimization and Control
Pandemics
Probability
Santé publique et épidémiologie
Social factors
Social interactions
Sustainability
Viral diseases
Viruses
COVID-19
SARS-CoV-2
Lockdown
Intensive Care Unit (ICU)
Sustainability
Quarantine
Detection
Optimal Control
Testing
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Abstract An extended SIR model, including several features of the recent COVID-19 outbreak, is considered: the infected and recovered individuals can either be detected or undetected and we also integrate an intensive care unit (ICU) capacity. We identify the optimal policy for controlling the epidemic dynamics using both lockdown and detection intervention levers, and taking into account the trade-off between the sanitary and the socio-economic cost of the pandemic, together with the limited capacity level of ICU. With parametric specification based on the COVID-19 literature, we investigate the sensitivities of various quantities on the optimal strategies. The optimal lockdown policy is structured into 4 phases: First a quick and strong lockdown intervention to stop the exponential growth of the contagion; second a short transition to reduce the prevalence of the virus; third a long period with full ICU capacity and stable virus prevalence; finally a return to normal social interactions with disappearance of the virus. The optimal scenario avoids the second wave of infection, provided the lockdown is released sufficiently slowly. Whenever massive resources are introduced to detect infected individuals, the pressure on social distancing can be released, whereas the impact of detection of immune individuals reveals to be more moderate.
AbstractList We consider here an extended $SIR$ model, including several features of the recent COVID-19 outbreak: in particular the infected and recovered individuals can either be detected (+) or undetected (-) and we also integrate an intensive care unit (ICU) capacity. Our model enables a tractable quantitative analysis of the optimal policy for the control of the epidemic dynamics using both lockdown and detection intervention levers. With parametric specification based on literature on COVID-19, we investigate the sensitivities of various quantities on the optimal strategies, taking into account the subtle trade-off between the sanitary and the socio-economic cost of the pandemic, together with the limited capacity level of ICU. We identify the optimal lockdown policy as an intervention structured in 4 successive phases: First a quick and strong lockdown intervention to stop the exponential growth of the contagion; second a short transition phase to reduce the prevalence of the virus; third a long period with full ICU capacity and stable virus prevalence; finally a return to normal social interactions with disappearance of the virus. The optimal scenario hereby avoids the second wave of infection, provided the lockdown is released sufficiently slowly. We also provide optimal intervention measures with increasing ICU capacity, as well as optimization over the effort on detection of infectious and immune individuals. Whenever massive resources are introduced to detect infected individuals, the pressure on social distancing can be released, whereas the impact of detection of immune individuals reveals to be more moderate.
An extended SIR model, including several features of the recent COVID-19 outbreak, is considered: the infected and recovered individuals can either be detected or undetected and we also integrate an intensive care unit (ICU) capacity. We identify the optimal policy for controlling the epidemic dynamics using both lockdown and detection intervention levers, and taking into account the trade-off between the sanitary and the socio-economic cost of the pandemic, together with the limited capacity level of ICU. With parametric specification based on the COVID-19 literature, we investigate the sensitivities of various quantities on the optimal strategies. The optimal lockdown policy is structured into 4 phases: First a quick and strong lockdown intervention to stop the exponential growth of the contagion; second a short transition to reduce the prevalence of the virus; third a long period with full ICU capacity and stable virus prevalence; finally a return to normal social interactions with disappearance of the virus. The optimal scenario avoids the second wave of infection, provided the lockdown is released sufficiently slowly. Whenever massive resources are introduced to detect infected individuals, the pressure on social distancing can be released, whereas the impact of detection of immune individuals reveals to be more moderate.
Author Charpentier, Arthur
Tran, Viet Chi
Laurière, Mathieu
Elie, Romuald
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Optimal Control
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Snippet An extended SIR model, including several features of the recent COVID-19 outbreak, is considered: the infected and recovered individuals can either be detected...
We consider here an extended $SIR$ model, including several features of the recent COVID-19 outbreak: in particular the infected and recovered individuals can...
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SubjectTerms Coronaviruses
COVID-19
Disease control
Economic conditions
Economic impact
Epidemic models
Epidemics
Life Sciences
Mathematics
Optimization and Control
Pandemics
Probability
Santé publique et épidémiologie
Social factors
Social interactions
Sustainability
Viral diseases
Viruses
Title COVID-19 pandemic control: balancing detection policy and lockdown intervention under ICU sustainability
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https://hal.science/hal-02572966
Volume 15
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