Exploring surveillance data biases when estimating the reproduction number: with insights into subpopulation transmission of COVID-19 in England

Author:

Sherratt Katharine1ORCID,Abbott Sam1,Meakin Sophie R.1ORCID,Hellewell Joel1ORCID,Munday James D.1,Bosse Nikos1ORCID,Jit Mark1,Funk Sebastian1ORCID,

Affiliation:

1. Department of Infectious Disease Epidemiology, Faculty of Epidemiology and Population Health, Centre for Mathematical Modelling of Infectious Diseases, London School of Hygiene and Tropical Medicine, London, UK

Abstract

The time-varying reproduction number ( R t : the average number of secondary infections caused by each infected person) may be used to assess changes in transmission potential during an epidemic. While new infections are not usually observed directly, they can be estimated from data. However, data may be delayed and potentially biased. We investigated the sensitivity of R t estimates to different data sources representing COVID-19 in England, and we explored how this sensitivity could track epidemic dynamics in population sub-groups. We sourced public data on test-positive cases, hospital admissions and deaths with confirmed COVID-19 in seven regions of England over March through August 2020. We estimated R t using a model that mapped unobserved infections to each data source. We then compared differences in R t with the demographic and social context of surveillance data over time. Our estimates of transmission potential varied for each data source, with the relative inconsistency of estimates varying across regions and over time. R t estimates based on hospital admissions and deaths were more spatio-temporally synchronous than when compared to estimates from all test positives. We found these differences may be linked to biased representations of subpopulations in each data source. These included spatially clustered testing, and where outbreaks in hospitals, care homes, and young age groups reflected the link between age and severity of the disease. We highlight that policy makers could better target interventions by considering the source populations of R t estimates. Further work should clarify the best way to combine and interpret R t estimates from different data sources based on the desired use. This article is part of the theme issue ‘Modelling that shaped the early COVID-19 pandemic response in the UK’.

Funder

Wellcome Trust

Bill and Melinda Gates Foundation

Horizon 2020 Framework Programme

Publisher

The Royal Society

Subject

General Agricultural and Biological Sciences,General Biochemistry, Genetics and Molecular Biology

Reference47 articles.

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2. World Health Organisation. 2020 Strengthening and adjusting public health measures throughout the COVID-19 transition phases. Policy considerations for the WHO European Region. WHO Regional Office for Europe; 2020 May. See http://www.euro.who.int/en/countries/hungary/publications/strengthening-and-adjusting-public-health-measures-throughout-the-covid-19-transition-phases.-policy-considerations-for-the-who-european-region -24-april-2020.

3. HM Government. 2020 Our Plan to Rebuild: The UK Government's COVID-19 recovery strategy. 2020 May. (CP:239). See https://www.gov.uk/government/publications/our-plan-to-rebuild-the-uk-governments-covid-19-recovery-strategy.

4. Michael Parker. 2020 Ethics and value judgements involved in developing policy for lifting physical distancing measures. 2020 Apr. (SAGE 30). See https://www.gov.uk/government/publications/ethics-and-value-judgements-involved-in-developing-policy-for-lifting-physical-distancing-measures-29-april-2020.

5. Epidemiological models are important tools for guiding COVID-19 interventions

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