Abstract
COVID-19 has become a severe infectious disease and has caused high morbidity and mortality worldwide. Restriction rules such as quarantine and city lockdown have been implemented to mitigate the spread of infection, leading to significant economic impacts. Fortunately, development and inoculation of COVID-19 vaccines are being conducted on an unprecedented scale. The effectiveness of vaccines raises a hope that city lockdown might not be necessary in the presence of ongoing vaccination, thereby minimizing economic loss. The question, however, is how fast and what type of vaccines should be inoculated to control the disease without limiting economic activity. Here, we set up a simulation scenario of COVID-19 outbreak in a modest city with a population of 2.5 million. The basic reproduction number (R0) was ranging from 1.0 to 5.5. Vaccination rates at 1000/day, 10,000/day and 100,000/day with two types of vaccine (effectiveness v = 51% and 89%) were given. The results indicated that R0 was a critical factor. Neither high vaccination rate (10,000 persons/day) nor high-end vaccine (v = 89%) could control the disease when the scenario was at R0 = 5.5. Unless an extremely high vaccination rate was given (>4% of the entire population/per day), no significant difference was found between two types of vaccine. With the population scaled to 25 million, the required vaccination rate was >1,000,000/day, a quite unrealistic number. Nevertheless, with a slight reduction of R0 from 5 to 3.5, a significant impact of vaccine inoculation on disease control was observed. Thus, our study raised the importance of estimating transmission dynamics of COVID-19 in a city before determining the subsequent policy.
Highlights
The SARS-CoV-2 (COVID-19) pandemic has caused huge economic losses by the great lockdown
Large-scale population testing, contact tracing, quarantine, social distancing, and city lockdown have been implemented in numerous countries and have shown a substantial impact on reducing transmission
The results from quarantine, city lockdown and vaccination indicated the need for effective public health strategy to control the pandemic
Summary
The SARS-CoV-2 (COVID-19) pandemic has caused huge economic losses by the great lockdown. The results from quarantine, city lockdown and vaccination indicated the need for effective public health strategy to control the pandemic It is critical in implementing the policy according to various scenarios if we are able to predict how fast the spread is, how efficacious the vaccine is, and at what rates the vaccination should be given. To examine whether the city could prevent the outburst of infection by vaccination, we modeled the progression of the carrier number within a short period (less than one month), during which the majority of carriers remained contagious In this model, we compared the simulated results in the following setups: the basic reproduction number (R0) = 1.0–5.5, fully vaccinated rate (M) at 103, 104, or 105 persons/day, and the vaccine effectiveness (v) at 51% or 89%. Our results indicated that vaccine inoculation is a very useful tool, policy implementation to reduce the social activity and prevent further infection is a rather urgent approach against COVID-19
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