Estimating the size of undetected cases of the Covid-19 outbreak in Europe: an upper bound estimator
Estimating the size of undetected cases of the Covid-19 outbreak in Europe: an upper bound estimator
Background
While the number of detected COVID-19 infections are widely available, an understanding of the extent of undetected cases is urgently needed for an effective tackling of the pandemic. The aim of this work is to estimate the true number of COVID-19 (detected and undetected) infections in several European countries. The question being asked is: How many cases have actually occurred?
Methods
We propose an upper bound estimator under cumulative data distributions, in an open population, based on a day-wise estimator that allows for heterogeneity. The estimator is data-driven and can be easily computed from the distributions of daily cases and deaths. Uncertainty surrounding the estimates is obtained using bootstrap methods.
Results
We focus on the ratio of the total estimated cases to the observed cases at April 17th. Differences arise at the country level, and we get estimates ranging from the 3.93 times of Norway to the 7.94 times of France. Accurate estimates are obtained, as bootstrap-based intervals are rather narrow.
Conclusions
Many parametric or semi-parametric models have been developed to estimate the population size from aggregated counts leading to an approximation of the missed population and/or to the estimate of the threshold under which the number of missed people cannot fall (i.e. a lower bound). Here, we provide a methodological contribution introducing an upper bound estimator and provide reliable estimates on the dark number, i.e. how many undetected cases are going around for several European countries, where the epidemic spreads differently.
Rocchetti, Irene
860f3ca0-8363-4fb4-b306-9a70e74bb663
Bohning, Dankmar
1df635d4-e3dc-44d0-b61d-5fd11f6434e1
Maruotti, Antonello
53159118-f31e-4f3e-b812-dff432d74229
Holling, Heinz
4f0c7a5e-ae1d-4ecf-b341-250998033221
Rocchetti, Irene
860f3ca0-8363-4fb4-b306-9a70e74bb663
Bohning, Dankmar
1df635d4-e3dc-44d0-b61d-5fd11f6434e1
Maruotti, Antonello
53159118-f31e-4f3e-b812-dff432d74229
Holling, Heinz
4f0c7a5e-ae1d-4ecf-b341-250998033221
Rocchetti, Irene, Bohning, Dankmar, Maruotti, Antonello and Holling, Heinz
(2020)
Estimating the size of undetected cases of the Covid-19 outbreak in Europe: an upper bound estimator.
Epidemiologic Methods, 9 (s1).
(doi:10.1515/em-2020-0024).
Abstract
Background
While the number of detected COVID-19 infections are widely available, an understanding of the extent of undetected cases is urgently needed for an effective tackling of the pandemic. The aim of this work is to estimate the true number of COVID-19 (detected and undetected) infections in several European countries. The question being asked is: How many cases have actually occurred?
Methods
We propose an upper bound estimator under cumulative data distributions, in an open population, based on a day-wise estimator that allows for heterogeneity. The estimator is data-driven and can be easily computed from the distributions of daily cases and deaths. Uncertainty surrounding the estimates is obtained using bootstrap methods.
Results
We focus on the ratio of the total estimated cases to the observed cases at April 17th. Differences arise at the country level, and we get estimates ranging from the 3.93 times of Norway to the 7.94 times of France. Accurate estimates are obtained, as bootstrap-based intervals are rather narrow.
Conclusions
Many parametric or semi-parametric models have been developed to estimate the population size from aggregated counts leading to an approximation of the missed population and/or to the estimate of the threshold under which the number of missed people cannot fall (i.e. a lower bound). Here, we provide a methodological contribution introducing an upper bound estimator and provide reliable estimates on the dark number, i.e. how many undetected cases are going around for several European countries, where the epidemic spreads differently.
Text
Irene_UB6
- Accepted Manuscript
More information
Submitted date: 1 December 2020
Accepted/In Press date: 1 December 2020
e-pub ahead of print date: 23 December 2020
Identifiers
Local EPrints ID: 445563
URI: http://eprints.soton.ac.uk/id/eprint/445563
PURE UUID: 59ec62c1-62f9-498d-95ab-45308f4a3c40
Catalogue record
Date deposited: 16 Dec 2020 17:31
Last modified: 17 Mar 2024 06:09
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Contributors
Author:
Irene Rocchetti
Author:
Antonello Maruotti
Author:
Heinz Holling
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