Establishment and lineage dynamics of the SARS-CoV-2 epidemic in the UK

Plessis, Louis du; McCrone, John; Zarebski, Alexander E.; Hill, Verity; Ruis, Chris; Gutierrez, Bernardo; Raghwani, Jayna; Ashworth, Jordan; Colquhoun, Rachel; Connor, Thomas R.; Faria, Nuno Rodrigues; Jackson, Benjamin C.; Loman, Nicholas J.; O’Toole, Áine; Nicholls, Samuel M.; Parag, Kris V; Scher, Emily; Vasylyeva, Tetyana I.; Volz, Erik; Watts, Alexander; Bogoch, Isaac I.; Khan, Kamran; Aanensen, David M.; Kraemer, Moritz U. G.; Rambaut, Andrew; Pybus, Oliver G.

doi:10.1126/science.abf2946

Cited by 371 publications

(460 citation statements)

References 68 publications

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“…The problem is that there is an identifiability issue because it is impossible to estimate both the number of initial infected cases and the time to threshold of 100 deaths with incidence data only. However, some estimates made in the UK from phylogenetic data as well as the combination of prevalence and travel data show that the estimated number of importation events is less than 5 per day before the end of February, when the virus was beginning to circulate at higher levels throughout Europe [19]. Assuming that the dynamic was similar in France, we could verify that the dynamic was only sensitive to the importation events within the first days after the beginning of the epidemic wave.…”

Section: Discussionmentioning

confidence: 99%

Estimating dates of origin and end of COVID-19 epidemics

Beneteau

Elie

Sofonea

et al. 2021

Preprint

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Estimating the date at which an epidemic started in a country and the date at which it can end depending on interventions intensity are important to guide public health responses. Both are potentially shaped by similar factors including stochasticity (due to small population sizes), super-spreading events, and memory effects. Focusing on COVID-19 epidemics, we develop and analyse mathematical models to explore how these three factors may affect early and final epidemic dynamics. Regarding the date of origin, we find limited effects on the mean estimates, but strong effects on their variances. Regarding the date of extinction following lock-down onset, mean values decrease with stochasticity or with the presence of superspreading events. These results underline the importance of accounting for heterogeneity in infection history and transmission patterns to make accurate predictions regarding epidemic temporal estimates.

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Section: Discussionmentioning

confidence: 99%

Estimating dates of origin and end of COVID-19 epidemics

Beneteau

Elie

Sofonea

et al. 2021

Preprint

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“…Sequencing of VOC-202012/1 revealed 14 genetic mutations, 8 of which occurred in parts of the genome that code for the spike protein, responsible for cell binding [10], and which influence S-gene detection. These mutations appear to have imparted a phenotypic change to the cell binding mechanism [11,7–9,2], with the potential for increased infectivity [12,13]. The impact of the change on clinical presentation, patient outcome and, most importantly mortality, remains poorly understood.…”

Section: Introductionmentioning

confidence: 99%

Increased hazard of mortality in cases compatible with SARS-CoV-2 variant of concern 202012/1 - a matched cohort study

Challen

Brooks-Pollock

Read

et al. 2021

Preprint

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Objectives - To establish whether there is any change in mortality associated with infection of a new variant of SARS-CoV-2 (VOC-202012/1), first detected in UK in December 2020, compared to that associated with infection with circulating SARS-CoV-2 variants. Design - Matched cohort study. Cases are matched by age, gender, ethnicity, index of multiple deprivation, lower tier local authority region, and sample date of positive specimen, and differing only by detectability of the spike protein gene using the TaqPath assay - a proxy measure of VOC-202012/1 infection. Setting - United Kingdom, Pillar 2 COVID-19 testing centres using the taqPath assay. Participants - 54,773 pairs of participants testing positive for SARS-CoV-2 in Pillar 2 between 1st October 2020 and 29th January 2021. Main outcome measures - Death within 28 days of first positive SARS-CoV-2 test. Results - There is a high probability that the risk of mortality is increased by infection with VOC-202012/01 (p <0.001). The mortality hazard ratio associated with infection with VOC-202012/1 compared to infection with previous strains is 1.7 (95% CI 1.3 - 2.2) in patients who have tested positive for COVID-19 in the community. In this comparatively low risk group, this represents an increase of deaths from 1.8 in 1000 to 3.1 in 1000 detected cases. Conclusions - If this finding is generalisable to other populations, VOC-202012/1 infections have the potential to cause substantial additional mortality over and previously circulating variants. Healthcare capacity planning, national and international control policies are all impacted by this finding, with increased mortality lending weight to the argument that further coordinated and stringent measures are justified to reduce deaths from SARS-CoV-2.

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“…In order to control the virus arrival and spread, many countries adopted rigid public health measures, including complete border closures and general lockdowns, with tremendous consequences at economic and social levels. At the early stages of an epidemic, the success of public health measures is particularly dependent on their timely implementation, which requires comprehensive diagnosis/surveillance systems that are able to efficiently trace where the virus is being introduced and circulating ( Alm et al, 2020; Nadeau et al, 2020; Gámbaro et al, 2020; du Plessis et al, 2021 ). Taking advantage of the recent extraordinary advances in sequencing technologies, modern surveillance systems are progressively relying on genomic epidemiology as a crucial tool for outbreak investigation and for tracking virus evolution and spread ( Fauver et al, 2020; Lemieux et al, 2020; du Plessis et al, 2021 ).…”

Section: Introductionmentioning

confidence: 99%

“…At the early stages of an epidemic, the success of public health measures is particularly dependent on their timely implementation, which requires comprehensive diagnosis/surveillance systems that are able to efficiently trace where the virus is being introduced and circulating ( Alm et al, 2020; Nadeau et al, 2020; Gámbaro et al, 2020; du Plessis et al, 2021 ). Taking advantage of the recent extraordinary advances in sequencing technologies, modern surveillance systems are progressively relying on genomic epidemiology as a crucial tool for outbreak investigation and for tracking virus evolution and spread ( Fauver et al, 2020; Lemieux et al, 2020; du Plessis et al, 2021 ). Genomic surveillance of SARS-CoV-2 can be particularly useful for: i) understanding the contribution of “new introductions” versus “local transmission” to the number of new cases at continent/country/regional levels; ii) evaluating the impact of non-pharmaceutical interventions on the outcomes of transmission chains; iii) characterizing the genetic variability that may negatively affect molecular diagnostic tests; iv) identifying and monitoring genetic variability affecting antigens and targets of antiviral drugs with potential impact on the development/effectiveness of prophylactic (vaccines) and therapeutic measures; v) investigating potential associations between genetic variants and infectious load, patient immunological status, clinical outcomes (e.g., infection duration, disease severity, etc) ( Alm et al, 2020 ).…”

Section: Introductionmentioning

confidence: 99%

The early dynamics of the SARS-CoV-2 epidemic in Portugal

Borges

Isidro

Trovao

et al. 2021

Preprint

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Background: Genomic surveillance of SARS-CoV-2 in Portugal was rapidly implemented by the National Institute of Health in the early stages of the COVID-19 epidemic, in collaboration with more than 50 laboratories distributed nationwide. This unprecedented collaborative effort culminated in the generation of 1275 SARS-CoV-2 genome sequences, which represent 15.5% of all confirmed cases in March 2020, making Portugal one of the countries generating the highest volumes of SARS-CoV-2 genomic data during early COVID-19 pandemic. Methods: We reconstructed and characterized the spatio-temporal dynamics of SARS-CoV-2 introductions and early dissemination in Portugal using recent phylodynamic models that allow integration of individual-based travel history, in order to obtain a more realistic reconstruction of the viral dynamics. Results: We detected at least 277 independent SARS-CoV-2 introductions, mostly from European countries (namely the United Kingdom, Spain, France, Italy and Switzerland), which was broadly consistent with the available travel history data, as well as with the countries with most frequent connectivity and/or with the highest number of Portuguese immigrants. Although most introductions were estimated to have occurred during the last week of February and the first week of March 2020, it is likely that SARS-CoV-2 was silently circulating in Portugal several weeks before the first confirmed local cases on March 2, 2020. Discussion and Conclusion: While the implemented preventive and early control measures seem to have been successful in mitigating community transmission from most independent introductions, our results suggest that their earlier implementation could have largely minimized the number of introductions and subsequent virus expansion. Here we lay the foundation for genomic epidemiology of SARS-CoV-2 in Portugal, and highlight the need for systematic, continuous and geographically-representative genomic surveillance to guide national and international public health authorities toward the characterization and control of SARS-CoV-2 circulating diversity.

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Establishment and lineage dynamics of the SARS-CoV-2 epidemic in the UK

Cited by 371 publications

References 68 publications

Estimating dates of origin and end of COVID-19 epidemics

Estimating dates of origin and end of COVID-19 epidemics

Increased hazard of mortality in cases compatible with SARS-CoV-2 variant of concern 202012/1 - a matched cohort study

The early dynamics of the SARS-CoV-2 epidemic in Portugal

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