Investigating the Dark Figure of COVID-19 Cases in Austria: Borrowing From the Decode Genetics Study in Iceland

The number of undetected cases of SARS-CoV-2 infections is expected to be a multiple of the reported figures mainly due to the assumed high proportion of asymptomatic infections and to limited availability of trustworthy testing resources. Relying on the deCODE genetics study in Iceland, which offer...

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Bibliographic Details
Published in:Austrian Journal of Statistics
Main Authors: Hirk, Rainer, Kastner, Gregor, Vana Gür, Laura
Format: Article in Journal/Newspaper
Language:English
Published: 2020
Subjects:
Online Access:https://research.wu.ac.at/de/publications/aaf5f4fa-70d0-4abb-a697-d20885548230
https://doi.org/10.17713/ajs.v49i4.1142
https://research.wu.ac.at/ws/files/18777621/1142-Article%20Text-4337-1-10-20200418.pdf
https://ajs.or.at/index.php/ajs/article/view/1142
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Summary:The number of undetected cases of SARS-CoV-2 infections is expected to be a multiple of the reported figures mainly due to the assumed high proportion of asymptomatic infections and to limited availability of trustworthy testing resources. Relying on the deCODE genetics study in Iceland, which offers large scale testing among the general population, we investigate the magnitude and uncertainty of the number of undetected cases COVID-19 cases in Austria. We formulate several scenarios relying on data on the number of COVID-19 cases which have been hospitalized, in intensive care, as well as on the number of deaths and positive tests in Iceland and Austria. We employ frequentist and Bayesian methods for estimating the dark figure in Austria based on the hypothesized scenarios and for accounting for the uncertainty surrounding this figure. Using data available on April 01, 2020, our study contains two main findings: First, we find the estimated number of infections to be on average around 8.35 times higher than the recorded number of infections. Second, the width of the uncertainty bounds associated with this figure depends highly on the statistical method employed. At a 95% level, lower bounds range from 3.96 to 6.83 and upper bounds range from 9.82 to 12.61. Overall, our findings confirm the need for systematic tests in the general population of Austria.