Why are different estimates of the effective reproductive number so different? A case study on COVID-19 in Germany

Abstract:

tive reproductive number Rt has taken a central role in the scientific, political, and public discussion during the COVID-19 pandemic, with numerous real-time estimates of this quantity routinely published. Disagreement between estimates can be substantial and may lead to confusion among decision-makers and the general public. In this work, we compare different estimates of the national-level effective reproductive number of COVID-19 in Germany in 2020 and 2021. We consider the agreement between estimates from the same method but published at different time points (within-method agreement) as well as retrospective agreement across eight different approaches (between-method agreement). Concerning the former, estimates from some methods are very stable over time and hardly subject to revisions, while others display considerable fluctuations. To evaluate between-method agreement, we reproduce the estimates generated by different groups using a variety of statistical approaches, standardizing analytical choices to assess how they contribute to the observed disagreement. These analytical choices include the data source, data pre-processing, assumed generation time distribution, statistical tuning parameters, and various delay distributions. We find that in practice, these auxiliary choices in the estimation of Rt may affect results at least as strongly as the selection of the statistical approach. They should thus be communicated transparently along with the estimates.

SEEK ID: https://publications.h-its.org/publications/1811

Filename: journal.pcbi.1011653.pdf 

Format: PDF document

Size: 3.68 MB

SEEK ID: https://publications.h-its.org/publications/1811

DOI: 10.1371/journal.pcbi.1011653

Research Groups: Computational Statistics

Publication type: Journal

Journal: PLOS Computational Biology

Publisher: Public Library of Science (PLoS)

Citation: PLOS Computational Biology, 19(11):e1011653

Date Published: 27th Nov 2023

URL:

Registered Mode: manually

Authors: Elisabeth K. Brockhaus, Daniel Wolffram, Tanja Stadler, Michael Osthege, Tanmay Mitra, Jonas M. Littek, Ekaterina Krymova, Anna J. Klesen, Jana S. Huisman, Stefan Heyder, Laura M. Helleckes, Matthias an der Heiden, Sebastian Funk, Sam Abbott, Johannes Bracher

Citation
Brockhaus, E. K., Wolffram, D., Stadler, T., Osthege, M., Mitra, T., Littek, J. M., Krymova, E., Klesen, A. J., Huisman, J. S., Heyder, S., Helleckes, L. M., an der Heiden, M., Funk, S., Abbott, S., & Bracher, J. (2023). Why are different estimates of the effective reproductive number so different? A case study on COVID-19 in Germany. In E. H. Y. Lau (Ed.), PLOS Computational Biology (Vol. 19, Issue 11, p. e1011653). Public Library of Science (PLoS). https://doi.org/10.1371/journal.pcbi.1011653
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Created: 19th Feb 2024 at 11:16

Last updated: 8th Mar 2024 at 15:36

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