The trade-off between mobility and vaccination for COVID-19 control: a metapopulation modeling approach
November 2020 received a string of encouraging results from leading vaccine developers raising hopes for the imminent availability of an effective and safe vaccine against the SARS-CoV-2. In the present work, we discuss the theoretical impact of introducing a vaccine across a range of scenarios . In particular, we investigate how vaccination coverage, efficacy, and delivery time affect the control of the transmission dynamics in comparison to mobility restrictions. The analysis is based on a metapopulation epidemic model structured by risk. We perform a global sensitivity analysis using the Sobol method. Our analysis suggest that the reduction of mobility among patches play a significant role in the mitigation of the disease close to the effect of immunization coverage of 30\% achieved in 4 months. Moreover, for an immunization coverage between 20\%-50\% achieved in the first half of 2021 with a vaccine efficacy between 70\%-95\%, the percentage reduction in the total number of SARS-CoV-2 infections is between 30\%-50\% by the end of 2021 in comparison with the no vaccination scenario.