Real-time estimation of R 0 for supporting public-health policies against COVID-19
Abstract
Background
In the absence of a consensus protocol to slow down the current SARS-CoV2 spread, policy makers are in need of real-time indicators to support decisions in public health matters. The Basic Reproduction Number ( R 0 ) represents viral spread rate and can be dramatically modified by the application of effective public control measures. However, current methodologies to calculate R 0 from data remain cumbersome and unusable during an outbreak.
Objective
To provide a simple mathematical formulation for obtaining R 0 in Real-Time, and apply it to assess the effectiveness of public-health policies in different iconic countries.
Study design
By modifying the equations describing the spread of the virus, we derived a real-time R 0 estimator that can be readily calculated from daily official case reports.
Results
We show the application of a time trend analysis of the R 0 estimator to assess the efficacy and promptness of public health measures that impacted on the development of the COVID-19 epidemic in iconic countries.
Conclusions
We propose our simple estimator and method as useful tools to follow and assess in real time the effectiveness of public health policies on COVID-19 evolution.
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