Mathematical Model and Non-Pharmaceutical Control of the Coronavirus 2019 Disease in Madagascar

Abstract: For Madagascar, with the uncertainty over vaccines against the novel coronavirus 2019 and its variants, non-pharmaceutical approach is widely used. Our objective is to propose a mathematical control model which will serve as a tool to help decision-makers in the strategy to be implemented to better face the pandemic. By separating asymptomatic cases which are often not reported and symptomatic who are hospitalized after tests; we develop a mathematical model of the propagation of covid-19 in Madagascar, by int… Show more

“…Estimation of R t , or its related counterpart, r, the epidemic growth rate ( Wallinga and Lipsitch, 2007 , Park et al, 2020 ), from available case count data is challenged by limitations or variability in surveillance, uncertainty surrounding the shape of disease parameter distributions, and delays in reporting ( Gostic et al, 2020 ). Despite the enormity of these challenges in the limited surveillance settings common to many lower- and middle-income countries (LMICs), real-time estimation of R t from COVID-19 case-counts has been attempted for most regions of the globe ( $author1$ et al, 7]</id><AuthGrp><Author><in>S.</in><dl> </dl><au>Abbott</au></Author><dl>, </dl><Author><in>J.</in><dl> </dl><au>Hellewell</au></Author><dl>, </dl><Author><in>R.N.</in><dl> </dl><au>Thompson</au></Author><dl>, </dl><Author><in>K.</in><dl> </dl><au>Sherratt</au></Author><dl>, </dl><Author><in>H.P.</in><dl> </dl><au>Gibbs</au></Author><dl>, </dl><Author><in>N.I.</in><dl> </dl><au>Bosse</au></Author><dl>, </dl><Author><in>J.D.</in><dl> </dl><au>Munday</au></Author><dl>, </dl><Author><in>S.</in><dl> </dl><au>Meakin</au></Author><dl>, </dl><Author><in>E.L.</in><dl> </dl><au>Doughty</au></Author><dl>, </dl><Author><in>J.Y.</in><dl> </dl><au>Chun</au></Author><dl>, </dl><Author><in>Y.-W.D.</in><dl> </dl><au>Chan</au></Author><dl>, </dl><Author><in>F.</in><dl> </dl><au>Finger</au></Author><dl>, </dl><Author><in>P.</in><dl> </dl><au>Campbell</au></Author><dl>, </dl><Author><in>A.</in><dl> </dl><au>Endo</au></Author><dl>, </dl><Author><in>C.A.B.</in><dl> </dl><au>Pearson</au></Author><dl>, </dl><Author><in>A.</in><dl> </dl><au>Gimma</au></Author><dl>, </dl><Author><in>T.</in><dl> </dl><au>Russell</au></Author><dl>, </dl><Author><in>C.C.</in><dl> </dl><au>modelling Group</au></Author><dl>, </dl><Author><in>S.</in><dl> </dl><au>Flasche</au></Author><dl>, </dl><Author><in>A.J.</in><dl> </dl><au>Kucharski</au></Author><dl>, </dl><Author><in>R.M.</in><dl> </dl><au>Eggo</au></Author><dl>, </dl><Author><in>S.</in><dl> </dl><au>Funk</au></Author></AuthGrp> ) and has been implemented locally in Madagascar ( Rasambainarivo et al, 2020 , Raherinirina et al, 2021 , Raherinirina et al, 2021 , Narison and Maltezos, 2021 ).…”

Cross-sectional cycle threshold values reflect epidemic dynamics of COVID-19 in Madagascar

“…Estimation of R t , or its related counterpart, r, the epidemic growth rate ( Wallinga and Lipsitch, 2007 , Park et al, 2020 ), from available case count data is challenged by limitations or variability in surveillance, uncertainty surrounding the shape of disease parameter distributions, and delays in reporting ( Gostic et al, 2020 ). Despite the enormity of these challenges in the limited surveillance settings common to many lower- and middle-income countries (LMICs), real-time estimation of R t from COVID-19 case-counts has been attempted for most regions of the globe ( $author1$ et al, 7]</id><AuthGrp><Author><in>S.</in><dl> </dl><au>Abbott</au></Author><dl>, </dl><Author><in>J.</in><dl> </dl><au>Hellewell</au></Author><dl>, </dl><Author><in>R.N.</in><dl> </dl><au>Thompson</au></Author><dl>, </dl><Author><in>K.</in><dl> </dl><au>Sherratt</au></Author><dl>, </dl><Author><in>H.P.</in><dl> </dl><au>Gibbs</au></Author><dl>, </dl><Author><in>N.I.</in><dl> </dl><au>Bosse</au></Author><dl>, </dl><Author><in>J.D.</in><dl> </dl><au>Munday</au></Author><dl>, </dl><Author><in>S.</in><dl> </dl><au>Meakin</au></Author><dl>, </dl><Author><in>E.L.</in><dl> </dl><au>Doughty</au></Author><dl>, </dl><Author><in>J.Y.</in><dl> </dl><au>Chun</au></Author><dl>, </dl><Author><in>Y.-W.D.</in><dl> </dl><au>Chan</au></Author><dl>, </dl><Author><in>F.</in><dl> </dl><au>Finger</au></Author><dl>, </dl><Author><in>P.</in><dl> </dl><au>Campbell</au></Author><dl>, </dl><Author><in>A.</in><dl> </dl><au>Endo</au></Author><dl>, </dl><Author><in>C.A.B.</in><dl> </dl><au>Pearson</au></Author><dl>, </dl><Author><in>A.</in><dl> </dl><au>Gimma</au></Author><dl>, </dl><Author><in>T.</in><dl> </dl><au>Russell</au></Author><dl>, </dl><Author><in>C.C.</in><dl> </dl><au>modelling Group</au></Author><dl>, </dl><Author><in>S.</in><dl> </dl><au>Flasche</au></Author><dl>, </dl><Author><in>A.J.</in><dl> </dl><au>Kucharski</au></Author><dl>, </dl><Author><in>R.M.</in><dl> </dl><au>Eggo</au></Author><dl>, </dl><Author><in>S.</in><dl> </dl><au>Funk</au></Author></AuthGrp> ) and has been implemented locally in Madagascar ( Rasambainarivo et al, 2020 , Raherinirina et al, 2021 , Raherinirina et al, 2021 , Narison and Maltezos, 2021 ).…”

Cross-sectional cycle threshold values reflect epidemic dynamics of COVID-19 in Madagascar