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3. Estimating the health effects of COVID-19-related immunisation disruptions in 112 countries during 2020–30: a modelling study

Author

Hartner, Anna-Maria, Li, Xiang, Echeverria-Londono, Susy, Roth, Jeremy, Abbas, Kaja, Auzenbergs, Megan, de Villiers, Margaret J, Ferrari, Matthew J, Fraser, Keith, Fu, Han, Hallett, Timothy, Hinsley, Wes, Jit, Mark, Karachaliou, Andromachi, Moore, Sean M, Nayagam, Shevanthi, Papadopoulos, Timos, Perkins, T Alex, Portnoy, Allison, Minh, Quan Tran, Vynnycky, Emilia, Winter, Amy K, Burrows, Holly, Chen, Cynthia, Clapham, Hannah E, Deshpande, Aniruddha, Hauryski, Sarah, Huber, John, Jean, Kevin, Kim, Chaelin, Kim, Jong-Hoon, Koh, Jemima, Lopman, Benjamin A, Pitzer, Virginia E, Tam, Yvonne, Lambach, Philipp, Sim, So Yoon, Woodruff, Kim, Ferguson, Neil M, Trotter, Caroline L, and Gaythorpe, Katy A M

Published
2024
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5. The potential health and economic value of SARS-CoV-2 vaccination alongside physical distancing in the UK: a transmission model-based future scenario analysis and economic evaluation

Author

Sun, Fiona Yueqian, Villabona-Arenas, C Julian, Nightingale, Emily S, Showering, Alicia, Knight, Gwenan M, Sherratt, Katharine, Liu, Yang, Abbas, Kaja, Funk, Sebastian, Endo, Akira, Hellewell, Joel, Rosello, Alicia, Lowe, Rachel, Quaife, Matthew, Gimma, Amy, Brady, Oliver, Williams, Jack, Procter, Simon R, Eggo, Rosalind M, Chan, Yung-Wai Desmond, Munday, James D, Barnard, Rosanna C, Gore-Langton, Georgia R, Bosse, Nikos I, Waterlow, Naomi R, Diamond, Charlie, Russell, Timothy W, Medley, Graham, Flasche, Stefan, Atkins, Katherine E, Prem, Kiesha, Simons, David, Auzenbergs, Megan, Tully, Damien C, Jarvis, Christopher I, van Zandvoort, Kevin, Abbott, Sam, Pearson, Carl A B, Jombart, Thibaut, Meakin, Sophie R, Foss, Anna M, Kucharski, Adam J, Quilty, Billy J, Gibbs, Hamish P, Clifford, Samuel, Klepac, Petra, Sandmann, Frank G, Davies, Nicholas G, Vassall, Anna, Edmunds, W John, and Jit, Mark

Published
2021
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6. Quarantine and testing strategies in contact tracing for SARS-CoV-2: a modelling study

Author

Atkins, Katherine E, Foss, Anna M, Waterlow, Naomi R, Abbas, Kaja, Lowe, Rachel, Pearson, Carl A B, Funk, Sebastian, Rosello, Alicia, Knight, Gwenan M, Bosse, Nikos I, Procter, Simon R, Gore-Langton, Georgia R, Showering, Alicia, Munday, James D, Sherratt, Katharine, Jombart, Thibaut, Nightingale, Emily S, Liu, Yang, Jarvis, Christopher I, Medley, Graham, Brady, Oliver, Gibbs, Hamish P, Simons, David, Williams, Jack, Tully, Damien C, Flasche, Stefan, Meakin, Sophie R, Zandvoort, Kevin, Sun, Fiona Y, Jit, Mark, Klepac, Petra, Quaife, Matthew, Eggo, Rosalind M, Sandmann, Frank G, Endo, Akira, Prem, Kiesha, Abbott, Sam, Barnard, Rosanna, Chan, Yung-Wai D, Auzenbergs, Megan, Gimma, Amy, Villabona-Arenas, C Julian, Davies, Nicholas G, Quilty, Billy J, Clifford, Samuel, Hellewell, Joel, Russell, Timothy W, Kucharski, Adam J, and Edmunds, W John

Published
2021
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7. Routine childhood immunisation during the COVID-19 pandemic in Africa: a benefit–risk analysis of health benefits versus excess risk of SARS-CoV-2 infection

Author

Houben, Rein M G J, Edmunds, W John, Villabona-Arenas, Christian Julian, Atkins, Katherine E, Knight, Gwenan M, Sun, Fiona Yueqian, Auzenbergs, Megan, Rosello, Alicia, Klepac, Petra, Hellewell, Joel, Russell, Timothy W, Tully, Damien C, Emery, Jon C, Gibbs, Hamish P, Munday, James D, Quilty, Billy J, Diamond, Charlie, Pearson, Carl A B, Leclerc, Quentin J, Nightingale, Emily S, Liu, Yang, Endo, Akira, Deol, Arminder K, Kucharski, Adam J, Abbott, Sam, Jarvis, Christopher I, O'Reilly, Kathleen, Jombart, Thibaut, Gimma, Amy, Bosse, Nikos I, Prem, Kiesha, Hué, Stéphane, Davies, Nicholas G, Eggo, Rosalind M, Clifford, Samuel, Medley, Graham, Abbas, Kaja, Procter, Simon R, van Zandvoort, Kevin, Clark, Andrew, Funk, Sebastian, Mengistu, Tewodaj, Hogan, Dan, Dansereau, Emily, Jit, Mark, and Flasche, Stefan

Published
2020
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8. Effectiveness of isolation, testing, contact tracing, and physical distancing on reducing transmission of SARS-CoV-2 in different settings: a mathematical modelling study

Author

Emery, Jon C, Medley, Graham, Munday, James D, Russell, Timothy W, Leclerc, Quentin J, Diamond, Charlie, Procter, Simon R, Gimma, Amy, Sun, Fiona Yueqian, Gibbs, Hamish P, Rosello, Alicia, van Zandvoort, Kevin, Hué, Stéphane, Meakin, Sophie R, Deol, Arminder K, Knight, Gwen, Jombart, Thibaut, Foss, Anna M, Bosse, Nikos I, Atkins, Katherine E, Quilty, Billy J, Lowe, Rachel, Prem, Kiesha, Flasche, Stefan, Pearson, Carl A B, Houben, Rein M G J, Nightingale, Emily S, Endo, Akira, Tully, Damien C, Liu, Yang, Villabona-Arenas, Julian, O'Reilly, Kathleen, Funk, Sebastian, Eggo, Rosalind M, Jit, Mark, Rees, Eleanor M, Hellewell, Joel, Clifford, Samuel, Jarvis, Christopher I, Abbott, Sam, Auzenbergs, Megan, Davies, Nicholas G, Simons, David, Kucharski, Adam J, Klepac, Petra, Conlan, Andrew J K, Kissler, Stephen M, Tang, Maria L, Fry, Hannah, Gog, Julia R, and Edmunds, W John

Published
2020
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9. Global, regional, and national estimates of the population at increased risk of severe COVID-19 due to underlying health conditions in 2020: a modelling study

Author

Nightingale, Emily S, O'Reilly, Kathleen, Jombart, Thibaut, Edmunds, W John, Rosello, Alicia, Sun, Fiona Yueqian, Atkins, Katherine E, Bosse, Nikos I, Clifford, Samuel, Russell, Timothy W, Deol, Arminder K, Liu, Yang, Procter, Simon R, Leclerc, Quentin J, Medley, Graham, Knight, Gwen, Munday, James D, Kucharski, Adam J, Pearson, Carl A B, Klepac, Petra, Prem, Kiesha, Houben, Rein M G J, Endo, Akira, Flasche, Stefan, Davies, Nicholas G, Diamond, Charlie, van Zandvoort, Kevin, Funk, Sebastian, Auzenbergs, Megan, Rees, Eleanor M, Tully, Damien C, Emery, Jon C, Quilty, Billy J, Abbott, Sam, Villabona-Arenas, Ch Julian, Hué, Stéphane, Hellewell, Joel, Gimma, Amy, Jarvis, Christopher I, Clark, Andrew, Jit, Mark, Warren-Gash, Charlotte, Guthrie, Bruce, Wang, Harry H X, Mercer, Stewart W, Sanderson, Colin, McKee, Martin, Troeger, Christopher, Ong, Kanyin L, Checchi, Francesco, Perel, Pablo, Joseph, Sarah, Gibbs, Hamish P, Banerjee, Amitava, and Eggo, Rosalind M

Published
2020
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10. Effects of non-pharmaceutical interventions on COVID-19 cases, deaths, and demand for hospital services in the UK: a modelling study

Author

Jombart, Thibaut, O'Reilly, Kathleen, Endo, Akira, Hellewell, Joel, Nightingale, Emily S, Quilty, Billy J, Jarvis, Christopher I, Russell, Timothy W, Klepac, Petra, Bosse, Nikos I, Funk, Sebastian, Abbott, Sam, Medley, Graham F, Gibbs, Hamish, Pearson, Carl A B, Flasche, Stefan, Jit, Mark, Clifford, Samuel, Prem, Kiesha, Diamond, Charlie, Emery, Jon, Deol, Arminder K, Procter, Simon R, van Zandvoort, Kevin, Sun, Yueqian Fiona, Munday, James D, Rosello, Alicia, Auzenbergs, Megan, Knight, Gwen, Houben, Rein M G J, Liu, Yang, Davies, Nicholas G, Kucharski, Adam J, Eggo, Rosalind M, Gimma, Amy, and Edmunds, W John

Published
2020
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12. Programmatic considerations and evidence gaps for chikungunya vaccine introduction in countries at risk of chikungunya outbreaks: Stakeholder analysis.

Author

Auzenbergs, Megan, Maure, Clara, Kang, Hyolim, Clark, Andrew, Brady, Oliver, Sahastrabuddhe, Sushant, and Abbas, Kaja

Subjects
*EVIDENCE gaps, *CHIKUNGUNYA, *STAKEHOLDER analysis, *VACCINES, SNOWBALL sampling
Abstract

Chikungunya can have longstanding effects on health and quality of life. Alongside the recent approval of the world's first chikungunya vaccine by the US Food and Drug Administration in November 2023 and with new chikungunya vaccines in the pipeline, it is important to understand the perspectives of stakeholders before vaccine rollout. Our study aim is to identify key programmatic considerations and gaps in Evidence-to-Recommendation criteria for chikungunya vaccine introduction. We used purposive and snowball sampling to identify global, national, and subnational stakeholders from outbreak prone areas, including Latin America, Asia, and Africa. Semi-structured in-depth interviews were conducted and analysed using qualitative descriptive methods. We found that perspectives varied between tiers of stakeholders and geographies. Unknown disease burden, diagnostics, non-specific disease surveillance, undefined target populations for vaccination, and low disease prioritisation were critical challenges identified by stakeholders that need to be addressed to facilitate rolling out a chikungunya vaccine. Future investments should address these challenges to generate useful evidence for decision-making on new chikungunya vaccine introduction. Author summary: The first vaccine to prevent chikungunya fever has been recently approved in November 2023 by the US FDA and multiple chikungunya vaccine candidates are in different phases of the development pipeline. These will be the first-ever vaccines against an alphavirus and offer new technologies for vaccine development against other viruses of the same family that may cause future epidemics. We interviewed stakeholders from areas at risk of chikungunya outbreaks across Latin America, Asia and Africa, and identified gaps in Evidence-to-Recommendation criteria that should be addressed alongside vaccine introduction. Our findings show that stakeholders from different regions prioritised chikungunya differently, but all stakeholders agreed that the unknown burden of disease, undefined target populations for vaccination and non-specific disease surveillance were challenges that needed to be addressed imminently. To address these gaps, the involvement of stakeholders in all phases of vaccine development and rollout will be crucial to uncover future challenges and to ensure vaccine equity. [ABSTRACT FROM AUTHOR]

Published
2024
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16. Chikungunya Seroprevalence, Force of Infection, and Prevalence of Chronic Disability in Endemic and Epidemic Settings: Systematic Review, Meta-Analysis, and Modelling Study

Author

Kang, Hyolim, primary, Auzenbergs, Megan, additional, Clapham, Hannah E., additional, Maure, Clara, additional, Kim, Jong-Hoon, additional, Salje, Henrik, additional, Taylor, Christopher, additional, Lim, Ahyoung, additional, Clark, Andrew D., additional, Edmunds, W. John, additional, Sahastrabuddhe, Sushant, additional, Brady, Oliver, additional, and Abbas, Kaja, additional

Published
2023
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19. The effect of travel restrictions on the geographical spread of COVID-19 between large cities in China: a modelling study

Author

Quilty, Billy J., Diamond, Charlie, Liu, Yang, Gibbs, Hamish, Russell, Timothy W., Jarvis, Christopher I., Prem, Kiesha, Pearson, Carl A. B., Clifford, Samuel, Flasche, Stefan, Emery, Jon C., Auzenbergs, Megan, Davies, Nicholas, Nightingale, Emily S., van Zandvoort, Kevin, Jombart, Thibaut, Deol, Arminder K., Edmunds, W. John, Hellewell, Joel, Funk, Sebastian, Abbott, Sam, Sun, Fiona, Endo, Akira, Rosello, Alicia, Gimma, Amy, Procter, Simon R., Bosse, Nikos I., O’Reilly, Kathleen, Medley, Graham, Munday, James D., Houben, Rein M. G. J., Kucharski, Adam J., Knight, Gwenan M., Klepac, Petra, Eggo, Rosalind M., and Jit, Mark

Subjects
Mainland China, Wuhan, China, Coronavirus disease 2019 (COVID-19), Pneumonia, Viral, lcsh:Medicine, Travel restrictions, Modelling, law.invention, 03 medical and health sciences, Betacoronavirus, 0302 clinical medicine, Beijing, law, Prevalence, Medicine, Humans, 030212 general & internal medicine, Cities, Socioeconomics, Pandemics, Mobility, Cordon sanitaire, Travel, Delay, High prevalence, business.industry, SARS-CoV-2, Incidence (epidemiology), Health Policy, Incidence, lcsh:R, Outbreaks, Outbreak, COVID-19, General Medicine, Models, Theoretical, 3. Good health, Transmission (mechanics), business, Coronavirus Infections, 030217 neurology & neurosurgery, Research Article
Abstract

Background To contain the spread of COVID-19, a cordon sanitaire was put in place in Wuhan prior to the Lunar New Year, on 23 January 2020. We assess the efficacy of the cordon sanitaire to delay the introduction and onset of local transmission of COVID-19 in other major cities in mainland China. Methods We estimated the number of infected travellers from Wuhan to other major cities in mainland China from November 2019 to February 2020 using previously estimated COVID-19 prevalence in Wuhan and publicly available mobility data. We focused on Beijing, Chongqing, Hangzhou, and Shenzhen as four representative major cities to identify the potential independent contribution of the cordon sanitaire and holiday travel. To do this, we simulated outbreaks generated by infected arrivals in these destination cities using stochastic branching processes. We also modelled the effect of the cordon sanitaire in combination with reduced transmissibility scenarios to simulate the effect of local non-pharmaceutical interventions. Results We find that in the four cities, given the potentially high prevalence of COVID-19 in Wuhan between December 2019 and early January 2020, local transmission may have been seeded as early as 1–8 January 2020. By the time the cordon sanitaire was imposed, infections were likely in the thousands. The cordon sanitaire alone did not substantially affect the epidemic progression in these cities, although it may have had some effect in smaller cities. Reduced transmissibility resulted in a notable decrease in the incidence of infection in the four studied cities. Conclusions Our results indicate that sustained transmission was likely occurring several weeks prior to the implementation of the cordon sanitaire in four major cities of mainland China and that the observed decrease in incidence was likely attributable to other non-pharmaceutical, transmission-reducing interventions.

Published
2020

21. Contact tracing is an imperfect tool for controlling COVID-19 transmission and relies on population adherence

Author

Davis, Emma L., Lucas, Tim C. D., Borlase, Anna, Pollington, Timothy M., Abbott, Sam, Ayabina, Diepreye, Crellen, Thomas, Hellewell, Joel, Pi, Li, Medley, Graham F., Hollingsworth, T. Déirdre, Klepac, Petra, Lowe, Rachel, Endo, Akira, Davies, Nicholas, Gore-Langton, Georgia R., Russell, Timothy W., Bosse, Nikos I., Quaife, Matthew, Kucharski, Adam J., Nightingale, Emily S., Pearson, Carl A. B., Gibbs, Hamish, O’Reilly, Kathleen, Jombart, Thibaut, Rees, Eleanor M., Deol, Arminder K., Hué, Stéphane, Auzenbergs, Megan, Houben, Rein M. G. J., Funk, Sebastian, Li, Yang, Sun, Fiona, Prem, Kiesha, Quilty, Billy J., Villabona-Arenas, Julian, Barnard, Rosanna C., Hodgson, David, Foss, Anna, Jarvis, Christopher I., Meakin, Sophie R., Eggo, Rosalind M., Abbas, Kaja, Zandvoort, Kevin Van, Emery, Jon C., Tully, Damien C., Sandmann, Frank G., Edmunds, W. John, Gimma, Amy, Knight, Gwen, Munday, James D., Diamond, Charlie, Jit, Mark, Leclerc, Quentin, Rosello, Alicia, Chan, Yung-Wai Desmond, Simons, David, Clifford, Sam, Flasche, Stefan, Procter, Simon R., Atkins, Katherine E., Davis, Emma L. [0000-0001-6261-775X], Lucas, Tim C. D. [0000-0003-4694-8107], Borlase, Anna [0000-0002-3189-7047], Pollington, Timothy M. [0000-0002-9688-5960], Crellen, Thomas [0000-0003-2934-1063], Medley, Graham F. [0000-0002-0030-7278], Hollingsworth, T. Déirdre [0000-0001-5962-4238], Klepac, Petra [0000-0003-4132-3933], and Apollo - University of Cambridge Repository

Subjects
631/114/2397, 692/699/255/2514, article, 692/700/478/174, 631/326/596/4130
Abstract

Emerging evidence suggests that contact tracing has had limited success in the UK in reducing the R number across the COVID-19 pandemic. We investigate potential pitfalls and areas for improvement by extending an existing branching process contact tracing model, adding diagnostic testing and refining parameter estimates. Our results demonstrate that reporting and adherence are the most important predictors of programme impact but tracing coverage and speed plus diagnostic sensitivity also play an important role. We conclude that well-implemented contact tracing could bring small but potentially important benefits to controlling and preventing outbreaks, providing up to a 15% reduction in R. We reaffirm that contact tracing is not currently appropriate as the sole control measure.

Published
2021
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22. Implications of the school-household network structure on SARS-CoV-2 transmission under school reopening strategies in England

Author

Munday, James D., Sherratt, Katharine, Meakin, Sophie, Endo, Akira, Pearson, Carl A. B., Hellewell, Joel, Abbott, Sam, Bosse, Nikos I., Eggo, Rosalind M., Simons, David, O’Reilly, Kathleen, Russell, Timothy W., Lowe, Rachel, Leclerc, Quentin J., Emery, Jon C., Klepac, Petra, Nightingale, Emily S., Quaife, Matthew, van Zandvoort, Kevin, Knight, Gwenan M., Jombart, Thibaut, Villabona-Arenas, C. Julian, Rees, Eleanor M., Diamond, Charlie, Auzenbergs, Megan, Medley, Graham, Foss, Anna M., Gore-Langton, Georgia R., Deol, Arminder K., Jit, Mark, Gibbs, Hamish P., Procter, Simon R., Rosello, Alicia, Jarvis, Christopher I., Liu, Yang, Houben, Rein M. G. J., Hué, Stéphane, Clifford, Samuel, Quilty, Billy J., Gimma, Amy, Tully, Damien C., Sun, Fiona Yueqian, Prem, Kiesha, Atkins, Katherine E., Wallinga, Jacco, Edmunds, W. John, van Hoek, Albert Jan, and Funk, Sebastian

Subjects
0301 basic medicine, Economic growth, 2019-20 coronavirus outbreak, Coronavirus disease 2019 (COVID-19), Adolescent, genetic structures, Epidemiology, Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), Science, education, General Physics and Astronomy, Network structure, Risk Assessment, General Biochemistry, Genetics and Molecular Biology, Article, law.invention, 03 medical and health sciences, 0302 clinical medicine, law, Risk Factors, Pandemic, Disease Transmission, Infectious, Humans, Computational models, 030212 general & internal medicine, Disease Transmission, Infectious/prevention & control, England/epidemiology, Child, Pandemics, COVID-19/epidemiology, Family Characteristics, Multidisciplinary, Schools, SARS-CoV-2, SARS-CoV-2/isolation & purification, COVID-19, General Chemistry, Schools/organization & administration, 030104 developmental biology, Transmission (mechanics), England, Viral infection, Child, Preschool, Business, Risk assessment, Disease transmission
Abstract

In early 2020 many countries closed schools to mitigate the spread of SARS-CoV-2. Since then, governments have sought to relax the closures, engendering a need to understand associated risks. Using address records, we construct a network of schools in England connected through pupils who share households. We evaluate the risk of transmission between schools under different reopening scenarios. We show that whilst reopening select year-groups causes low risk of large-scale transmission, reopening secondary schools could result in outbreaks affecting up to 2.5 million households if unmitigated, highlighting the importance of careful monitoring and within-school infection control to avoid further school closures or other restrictions., Many countries have closed schools as part of their COVID-19 response. Here, the authors model SARS-CoV-2 transmission on a network of schools and households in England, and find that risk of transmission between schools is lower if primary schools are open than if secondary schools are open.

Published
2021

23. The potential health and economic value of SARS-CoV-2 vaccination alongside physical distancing in the UK: a transmission model-based future scenario analysis and economic evaluation

Author

Sandmann, Frank G, primary, Davies, Nicholas G, additional, Vassall, Anna, additional, Edmunds, W John, additional, Jit, Mark, additional, Sun, Fiona Yueqian, additional, Villabona-Arenas, C Julian, additional, Nightingale, Emily S, additional, Showering, Alicia, additional, Knight, Gwenan M, additional, Sherratt, Katharine, additional, Liu, Yang, additional, Abbas, Kaja, additional, Funk, Sebastian, additional, Endo, Akira, additional, Hellewell, Joel, additional, Rosello, Alicia, additional, Lowe, Rachel, additional, Quaife, Matthew, additional, Gimma, Amy, additional, Brady, Oliver, additional, Williams, Jack, additional, Procter, Simon R, additional, Eggo, Rosalind M, additional, Chan, Yung-Wai Desmond, additional, Munday, James D, additional, Barnard, Rosanna C, additional, Gore-Langton, Georgia R, additional, Bosse, Nikos I, additional, Waterlow, Naomi R, additional, Diamond, Charlie, additional, Russell, Timothy W, additional, Medley, Graham, additional, Flasche, Stefan, additional, Atkins, Katherine E, additional, Prem, Kiesha, additional, Simons, David, additional, Auzenbergs, Megan, additional, Tully, Damien C, additional, Jarvis, Christopher I, additional, van Zandvoort, Kevin, additional, Abbott, Sam, additional, Pearson, Carl A B, additional, Jombart, Thibaut, additional, Meakin, Sophie R, additional, Foss, Anna M, additional, Kucharski, Adam J, additional, Quilty, Billy J, additional, Gibbs, Hamish P, additional, Clifford, Samuel, additional, and Klepac, Petra, additional

Published
2021
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25. Strategies to reduce the risk of SARS-CoV-2 importation from international travellers: modelling estimations for the United Kingdom, July 2020

Author

Clifford, Samuel, Quilty, Billy J, Russell, Timothy W, Liu, Yang, Chan, Yung-Wai D, Pearson, Carl A B, Eggo, Rosalind M, Endo, Akira, Flasche, Stefan, Edmunds, W John, Sherratt, Katharine, Hué, Stéphane, Quaife, Matthew, Bosse, Nikos I, Medley, Graham, Auzenbergs, Megan, Kucharski, Adam J, Davies, Nicholas G, Brady, Oliver, Meakin, Sophie R, Houben, Rein M G J, Atkins, Katherine E, Prem, Kiesha, Villabona-Arenas, C Julian, Gibbs, Hamish P, Jombart, Thibaut, Diamond, Charlie, Klepac, Petra, Deol, Arminder K, Lowe, Rachel, Rudge, James W, Jit, Mark, Funk, Sebastian, Knight, Gwenan M., Procter, Simon R., Simons, David, Leclerc, Quentin J, Munday, James D, Gimma, Amy, Gore-Langton, Georgia R, Jarvis, Christopher I, Emery, Jon C, Foss, Anna M, O'Reilly, Kathleen, Hellewell, Joel, Nightingale, Emily S, van Zandvoort, Kevin, Tully, Damien C, Abbott, Sam, Abbas, Kaja, Sun, Fiona Yueqian, and Rosello, Alicia

Subjects
COVID-19 Vaccines, Coronavirus disease 2019 (COVID-19), Epidemiology, Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), law.invention, Pcr test, law, Virology, Environmental health, Quarantine, Pandemic, media_common.cataloged_instance, Medicine, Humans, European union, Pandemics, media_common, business.industry, SARS-CoV-2, Incidence (epidemiology), Research, Public Health, Environmental and Occupational Health, COVID-19, PCR testing, United Kingdom, Transmission (mechanics), business, travel screening
Abstract

Background To mitigate SARS-CoV-2 transmission risks from international air travellers, many countries implemented a combination of up to 14 days of self-quarantine upon arrival plus PCR testing in the early stages of the COVID-19 pandemic in 2020. Aim To assess the effectiveness of quarantine and testing of international travellers to reduce risk of onward SARS-CoV-2 transmission into a destination country in the pre-COVID-19 vaccination era. Methods We used a simulation model of air travellers arriving in the United Kingdom from the European Union or the United States, incorporating timing of infection stages while varying quarantine duration and timing and number of PCR tests. Results Quarantine upon arrival with a PCR test on day 7 plus a 1-day delay for results can reduce the number of infectious arriving travellers released into the community by a median 94% (95% uncertainty interval (UI): 89–98) compared with a no quarantine/no test scenario. This reduction is similar to that achieved by a 14-day quarantine period (median > 99%; 95% UI: 98–100). Even shorter quarantine periods can prevent a substantial amount of transmission; all strategies in which travellers spend at least 5 days (mean incubation period) in quarantine and have at least one negative test before release are highly effective (median reduction 89%; 95% UI: 83–95)). Conclusion The effect of different screening strategies impacts asymptomatic and symptomatic individuals differently. The choice of an optimal quarantine and testing strategy for unvaccinated air travellers may vary based on the number of possible imported infections relative to domestic incidence.

Published
2021

26. Quarantine and testing strategies in contact tracing for SARS-CoV-2: a modelling study

Author

Quilty, Billy J, primary, Clifford, Samuel, additional, Hellewell, Joel, additional, Russell, Timothy W, additional, Kucharski, Adam J, additional, Flasche, Stefan, additional, Edmunds, W John, additional, Atkins, Katherine E, additional, Foss, Anna M, additional, Waterlow, Naomi R, additional, Abbas, Kaja, additional, Lowe, Rachel, additional, Pearson, Carl A B, additional, Funk, Sebastian, additional, Rosello, Alicia, additional, Knight, Gwenan M, additional, Bosse, Nikos I, additional, Procter, Simon R, additional, Gore-Langton, Georgia R, additional, Showering, Alicia, additional, Munday, James D, additional, Sherratt, Katharine, additional, Jombart, Thibaut, additional, Nightingale, Emily S, additional, Liu, Yang, additional, Jarvis, Christopher I, additional, Medley, Graham, additional, Brady, Oliver, additional, Gibbs, Hamish P, additional, Simons, David, additional, Williams, Jack, additional, Tully, Damien C, additional, Meakin, Sophie R, additional, Zandvoort, Kevin, additional, Sun, Fiona Y, additional, Jit, Mark, additional, Klepac, Petra, additional, Quaife, Matthew, additional, Eggo, Rosalind M, additional, Sandmann, Frank G, additional, Endo, Akira, additional, Prem, Kiesha, additional, Abbott, Sam, additional, Barnard, Rosanna, additional, Chan, Yung-Wai D, additional, Auzenbergs, Megan, additional, Gimma, Amy, additional, Villabona-Arenas, C Julian, additional, and Davies, Nicholas G, additional

Published
2021
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27. Changing travel patterns in China during the early stages of the COVID-19 pandemic

Author

Gibbs, Hamish, Liu, Yang, Pearson, Carl A. B., Jarvis, Christopher I., Grundy, Chris, Quilty, Billy J., Diamond, Charlie, Simons, David, Gimma, Amy, Leclerc, Quentin J., Auzenbergs, Megan, Lowe, Rachel, O’Reilly, Kathleen, Quaife, Matthew, Hellewell, Joel, Knight, Gwenan M., Jombart, Thibaut, Klepac, Petra, Procter, Simon R., Deol, Arminder K., Rees, Eleanor M., Flasche, Stefan, Kucharski, Adam J., Abbott, Sam, Sun, Fiona Yueqian, Endo, Akira, Medley, Graham, Munday, James D., Meakin, Sophie R., Bosse, Nikos I., Edmunds, W. John, Davies, Nicholas G., Prem, Kiesha, Hué, Stéphane, Villabona-Arenas, C. Julian, Nightingale, Emily S., Houben, Rein M. G. J., Foss, Anna M., Tully, Damien C., Emery, Jon C., van Zandvoort, Kevin, Atkins, Katherine E., Rosello, Alicia, Funk, Sebastian, Jit, Mark, Clifford, Samuel, Russell, Timothy W., and Eggo, Rosalind M.

Subjects
0301 basic medicine, Time Factors, Epidemiology, General Physics and Astronomy, Transportation, 0302 clinical medicine, Health care, Pandemic, Computational models, 030212 general & internal medicine, lcsh:Science, Holidays, Travel, 0303 health sciences, Multidisciplinary, Geography, Public Health, Coronavirus Infections, Mainland China, China, 2019-20 coronavirus outbreak, medicine.medical_specialty, Coronavirus disease 2019 (COVID-19), Science, Pneumonia, Viral, Policy and public health in microbiology, Article, General Biochemistry, Genetics and Molecular Biology, Betacoronavirus, 03 medical and health sciences, Development economics, medicine, Humans, Pandemics, 030304 developmental biology, Population Density, SARS-CoV-2, business.industry, Public health, COVID-19, General Chemistry, 030104 developmental biology, 13. Climate action, lcsh:Q, Demographic economics, business, Delivery of Health Care, human activities
Abstract

Understanding changes in human mobility in the early stages of the COVID-19 pandemic is crucial for assessing the impacts of travel restrictions designed to reduce disease spread. Here, relying on data from mainland China, we investigate the spatio-temporal characteristics of human mobility between 1st January and 1st March 2020, and discuss their public health implications. An outbound travel surge from Wuhan before travel restrictions were implemented was also observed across China due to the Lunar New Year, indicating that holiday travel may have played a larger role in mobility changes compared to impending travel restrictions. Holiday travel also shifted healthcare pressure related to COVID-19 towards locations with lower healthcare capacity. Network analyses showed no sign of major changes in the transportation network after Lunar New Year. Changes observed were temporary and did not lead to structural reorganisation of the transportation network during the study period., COVID-19-related travel restrictions were imposed in China around the same time as major annual holiday migrations, with unknown combined impacts on mobility patterns. Here, the authors show that restructuring of the travel network in response to restrictions was temporary, whilst holiday-related travel increased pressure on healthcare services with lower capacity.

Published
2020
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28. Using a real-world network to model localized COVID-19 control strategies

Author

Firth, Josh A., Hellewell, Joel, Klepac, Petra, Kissler, Stephen, Jit, Mark, Atkins, Katherine E., Clifford, Samuel, Villabona-Arenas, C. Julian, Meakin, Sophie R., Diamond, Charlie, Bosse, Nikos I., Munday, James D., Prem, Kiesha, Foss, Anna M., Nightingale, Emily S., Zandvoort, Kevin van, Davies, Nicholas G., Gibbs, Hamish P., Medley, Graham, Gimma, Amy, Flasche, Stefan, Simons, David, Auzenbergs, Megan, Russell, Timothy W., Quilty, Billy J., Rees, Eleanor M., Leclerc, Quentin J., Edmunds, W. John, Funk, Sebastian, Houben, Rein M. G. J., Knight, Gwenan M., Abbott, Sam, Sun, Fiona Yueqian, Lowe, Rachel, Tully, Damien C., Procter, Simon R., Jarvis, Christopher I., Endo, Akira, O’Reilly, Kathleen, Emery, Jon C., Jombart, Thibaut, Rosello, Alicia, Deol, Arminder K., Quaife, Matthew, Hué, Stéphane, Liu, Yang, Eggo, Rosalind M., Pearson, Carl A. B., Kucharski, Adam J., and Spurgin, Lewis G.

Subjects
0301 basic medicine, Social network, Coronavirus disease 2019 (COVID-19), business.industry, Computer science, Distancing, Control (management), General Medicine, Tracing, Computer security, computer.software_genre, General Biochemistry, Genetics and Molecular Biology, law.invention, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, Transmission (mechanics), law, 030220 oncology & carcinogenesis, Isolation (database systems), business, computer, Contact tracing
Abstract

Case isolation and contact tracing can contribute to the control of COVID-19 outbreaks1,2. However, it remains unclear how real-world social networks could influence the effectiveness and efficiency of such approaches. To address this issue, we simulated control strategies for SARS-CoV-2 transmission in a real-world social network generated from high-resolution GPS data that were gathered in the course of a citizen-science experiment3,4. We found that tracing the contacts of contacts reduced the size of simulated outbreaks more than tracing of only contacts, but this strategy also resulted in almost half of the local population being quarantined at a single point in time. Testing and releasing non-infectious individuals from quarantine led to increases in outbreak size, suggesting that contact tracing and quarantine might be most effective as a 'local lockdown' strategy when contact rates are high. Finally, we estimated that combining physical distancing with contact tracing could enable epidemic control while reducing the number of quarantined individuals. Our findings suggest that targeted tracing and quarantine strategies would be most efficient when combined with other control measures such as physical distancing.

Published
2020

29. The importance of supplementary immunisation activities to prevent measles outbreaks during the COVID-19 pandemic in Kenya

Author

Mburu, C. N., Ojal, J., Chebet, R., Akech, D., Karia, B., Tuju, J., Sigilai, A., Abbas, K., Jit, M., Funk, S., Smits, G., van Gageldonk, P. G. M., van der Klis, F. R. M., Tabu, C., Nokes, D. J., Munday, James D., Pearson, Carl A. B., Procter, Simon R., Brady, Oliver, Simons, David, Lowe, Rachel, Edmunds, W. John, Sherratt, Katharine, Barnard, Rosanna C., Rosello, Alicia, Kucharski, Adam J., Sun, Fiona Yueqian, Bosse, Nikos I., Klepac, Petra, Liu, Yang, Prem, Kiesha, Knight, Gwenan M., Endo, Akira, Abbott, Sam, Nightingale, Emily S., Jombart, Thibaut, Emery, Jon C., Gore-Langton, Georgia R., Hellewell, Joel, Rudge, James W., Gibbs, Hamish P., O’Reilly, Kathleen, van Zandvoort, Kevin, Chan, Yung-Wai Desmond, Tully, Damien C., Foss, Anna M., Jarvis, Christopher I., Atkins, Katherine E., Clifford, Samuel, Quaife, Matthew, Quilty, Billy J., Houben, Rein M. G. J., Eggo, Rosalind M., Medley, Graham, Meakin, Sophie R., Russell, Timothy W., Davies, Nicholas G., Diamond, Charlie, Deol, Arminder K., Villabona-Arenas, C. Julian, Hué, Stéphane, Auzenbergs, Megan, Leclerc, Quentin J., Gimma, Amy, Scott, JAG, Flasche, S., Adetifa, IMO, LSHTM CMMID COVID-19 Working Group, and Group, LSHTM CMMID COVID-19 Working

Subjects
Male, COVID-19, Supplementary immunisation activities, Vaccination coverage, Outbreak, Measles, medicine.medical_specialty, Adolescent, Coronavirus disease 2019 (COVID-19), RJ, Measles Vaccine, 030231 tropical medicine, lcsh:Medicine, Measles outbreak, Disease Outbreaks, Herd immunity, 03 medical and health sciences, 0302 clinical medicine, Environmental health, Epidemiology, Pandemic, medicine, Humans, 030212 general & internal medicine, Child, Immunization Programs, SARS-CoV-2, business.industry, lcsh:R, Infant, Newborn, Infant, General Medicine, medicine.disease, Kenya, Increased risk, Child, Preschool, Female, business, RA, Research Article
Abstract

Background The COVID-19 pandemic has disrupted routine measles immunisation and supplementary immunisation activities (SIAs) in most countries including Kenya. We assessed the risk of measles outbreaks during the pandemic in Kenya as a case study for the African Region. Methods Combining measles serological data, local contact patterns, and vaccination coverage into a cohort model, we predicted the age-adjusted population immunity in Kenya and estimated the probability of outbreaks when contact-reducing COVID-19 interventions are lifted. We considered various scenarios for reduced measles vaccination coverage from April 2020. Results In February 2020, when a scheduled SIA was postponed, population immunity was close to the herd immunity threshold and the probability of a large outbreak was 34% (8–54). As the COVID-19 contact restrictions are nearly fully eased, from December 2020, the probability of a large measles outbreak will increase to 38% (19–54), 46% (30–59), and 54% (43–64) assuming a 15%, 50%, and 100% reduction in measles vaccination coverage. By December 2021, this risk increases further to 43% (25–56), 54% (43–63), and 67% (59–72) for the same coverage scenarios respectively. However, the increased risk of a measles outbreak following the lifting of all restrictions can be overcome by conducting a SIA with ≥ 95% coverage in under-fives. Conclusion While contact restrictions sufficient for SAR-CoV-2 control temporarily reduce measles transmissibility and the risk of an outbreak from a measles immunity gap, this risk rises rapidly once these restrictions are lifted. Implementing delayed SIAs will be critical for prevention of measles outbreaks given the roll-back of contact restrictions in Kenya.

Published
2020
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30. Positive Voices: The National Survey of People Living with HIV

Author

Kall, Meaghan, Kelly, Carole, Auzenbergs, Megan, and Delpech, Valerie

Subjects
virus diseases
Abstract

Positive Voices is a national HIV patient survey developed by Public Health England in partnership with University College London and Imperial College London. The survey aims to collect population-level information from people living with HIV which will provide valuable insights into the issues that most affect the health and lives of people living with HIV. The results of the survey will be used to monitor and improve existing HIV services and policies and support the provision of new services.

Published
2020

31. Effectiveness of isolation, testing, contact tracing, and physical distancing on reducing transmission of SARS-CoV-2 in different settings: a mathematical modelling study

Author

Kucharski, Adam J, primary, Klepac, Petra, additional, Conlan, Andrew J K, additional, Kissler, Stephen M, additional, Tang, Maria L, additional, Fry, Hannah, additional, Gog, Julia R, additional, Edmunds, W John, additional, Emery, Jon C, additional, Medley, Graham, additional, Munday, James D, additional, Russell, Timothy W, additional, Leclerc, Quentin J, additional, Diamond, Charlie, additional, Procter, Simon R, additional, Gimma, Amy, additional, Sun, Fiona Yueqian, additional, Gibbs, Hamish P, additional, Rosello, Alicia, additional, van Zandvoort, Kevin, additional, Hué, Stéphane, additional, Meakin, Sophie R, additional, Deol, Arminder K, additional, Knight, Gwen, additional, Jombart, Thibaut, additional, Foss, Anna M, additional, Bosse, Nikos I, additional, Atkins, Katherine E, additional, Quilty, Billy J, additional, Lowe, Rachel, additional, Prem, Kiesha, additional, Flasche, Stefan, additional, Pearson, Carl A B, additional, Houben, Rein M G J, additional, Nightingale, Emily S, additional, Endo, Akira, additional, Tully, Damien C, additional, Liu, Yang, additional, Villabona-Arenas, Julian, additional, O'Reilly, Kathleen, additional, Funk, Sebastian, additional, Eggo, Rosalind M, additional, Jit, Mark, additional, Rees, Eleanor M, additional, Hellewell, Joel, additional, Clifford, Samuel, additional, Jarvis, Christopher I, additional, Abbott, Sam, additional, Auzenbergs, Megan, additional, Davies, Nicholas G, additional, and Simons, David, additional

Published
2020
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32. Routine childhood immunisation during the COVID-19 pandemic in Africa: a benefit–risk analysis of health benefits versus excess risk of SARS-CoV-2 infection

Author

Abbas, Kaja, primary, Procter, Simon R, additional, van Zandvoort, Kevin, additional, Clark, Andrew, additional, Funk, Sebastian, additional, Mengistu, Tewodaj, additional, Hogan, Dan, additional, Dansereau, Emily, additional, Jit, Mark, additional, Flasche, Stefan, additional, Houben, Rein M G J, additional, Edmunds, W John, additional, Villabona-Arenas, Christian Julian, additional, Atkins, Katherine E, additional, Knight, Gwenan M, additional, Sun, Fiona Yueqian, additional, Auzenbergs, Megan, additional, Rosello, Alicia, additional, Klepac, Petra, additional, Hellewell, Joel, additional, Russell, Timothy W, additional, Tully, Damien C, additional, Emery, Jon C, additional, Gibbs, Hamish P, additional, Munday, James D, additional, Quilty, Billy J, additional, Diamond, Charlie, additional, Pearson, Carl A B, additional, Leclerc, Quentin J, additional, Nightingale, Emily S, additional, Liu, Yang, additional, Endo, Akira, additional, Deol, Arminder K, additional, Kucharski, Adam J, additional, Abbott, Sam, additional, Jarvis, Christopher I, additional, O'Reilly, Kathleen, additional, Jombart, Thibaut, additional, Gimma, Amy, additional, Bosse, Nikos I, additional, Prem, Kiesha, additional, Hué, Stéphane, additional, Davies, Nicholas G, additional, Eggo, Rosalind M, additional, Clifford, Samuel, additional, and Medley, Graham, additional

Published
2020
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33. Global, regional, and national estimates of the population at increased risk of severe COVID-19 due to underlying health conditions in 2020: a modelling study

Author

Clark, Andrew, primary, Jit, Mark, additional, Warren-Gash, Charlotte, additional, Guthrie, Bruce, additional, Wang, Harry H X, additional, Mercer, Stewart W, additional, Sanderson, Colin, additional, McKee, Martin, additional, Troeger, Christopher, additional, Ong, Kanyin L, additional, Checchi, Francesco, additional, Perel, Pablo, additional, Joseph, Sarah, additional, Gibbs, Hamish P, additional, Banerjee, Amitava, additional, Eggo, Rosalind M, additional, Nightingale, Emily S, additional, O'Reilly, Kathleen, additional, Jombart, Thibaut, additional, Edmunds, W John, additional, Rosello, Alicia, additional, Sun, Fiona Yueqian, additional, Atkins, Katherine E, additional, Bosse, Nikos I, additional, Clifford, Samuel, additional, Russell, Timothy W, additional, Deol, Arminder K, additional, Liu, Yang, additional, Procter, Simon R, additional, Leclerc, Quentin J, additional, Medley, Graham, additional, Knight, Gwen, additional, Munday, James D, additional, Kucharski, Adam J, additional, Pearson, Carl A B, additional, Klepac, Petra, additional, Prem, Kiesha, additional, Houben, Rein M G J, additional, Endo, Akira, additional, Flasche, Stefan, additional, Davies, Nicholas G, additional, Diamond, Charlie, additional, van Zandvoort, Kevin, additional, Funk, Sebastian, additional, Auzenbergs, Megan, additional, Rees, Eleanor M, additional, Tully, Damien C, additional, Emery, Jon C, additional, Quilty, Billy J, additional, Abbott, Sam, additional, Villabona-Arenas, Ch Julian, additional, Hué, Stéphane, additional, Hellewell, Joel, additional, Gimma, Amy, additional, and Jarvis, Christopher I, additional

Published
2020
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34. Effects of non-pharmaceutical interventions on COVID-19 cases, deaths, and demand for hospital services in the UK: a modelling study

Author

Davies, Nicholas G, primary, Kucharski, Adam J, additional, Eggo, Rosalind M, additional, Gimma, Amy, additional, Edmunds, W John, additional, Jombart, Thibaut, additional, O'Reilly, Kathleen, additional, Endo, Akira, additional, Hellewell, Joel, additional, Nightingale, Emily S, additional, Quilty, Billy J, additional, Jarvis, Christopher I, additional, Russell, Timothy W, additional, Klepac, Petra, additional, Bosse, Nikos I, additional, Funk, Sebastian, additional, Abbott, Sam, additional, Medley, Graham F, additional, Gibbs, Hamish, additional, Pearson, Carl A B, additional, Flasche, Stefan, additional, Jit, Mark, additional, Clifford, Samuel, additional, Prem, Kiesha, additional, Diamond, Charlie, additional, Emery, Jon, additional, Deol, Arminder K, additional, Procter, Simon R, additional, van Zandvoort, Kevin, additional, Sun, Yueqian Fiona, additional, Munday, James D, additional, Rosello, Alicia, additional, Auzenbergs, Megan, additional, Knight, Gwen, additional, Houben, Rein M G J, additional, and Liu, Yang, additional

Published
2020
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36. Quantifying the impact of physical distance measures on the transmission of COVID-19 in the UK.

Author

Jarvis, Christopher I., Van Zandvoort, Kevin, Gimma, Amy, Prem, Kiesha, CMMID COVID-19 working group, Auzenbergs, Megan, O'Reilly, Kathleen, Medley, Graham, Emery, Jon C., Houben, Rein M. G. J., Davies, Nicholas, Nightingale, Emily S., Flasche, Stefan, Jombart, Thibaut, Hellewell, Joel, Abbott, Sam, Munday, James D., Bosse, Nikos I., Funk, Sebastian, and Sun, Fiona

Subjects
COVID-19, SOCIAL contact, DISTANCES, PHYSICAL contact, PREVENTION of epidemics, VIRAL pneumonia, HEALTH policy, MATHEMATICAL models, DISEASE incidence, ACTIVITIES of daily living, SOCIAL isolation, BASIC reproduction number, INTERPERSONAL relations, THEORY, RESEARCH funding, CONTACT tracing, INFECTIOUS disease transmission
Abstract

Background: To mitigate and slow the spread of COVID-19, many countries have adopted unprecedented physical distancing policies, including the UK. We evaluate whether these measures might be sufficient to control the epidemic by estimating their impact on the reproduction number (R0, the average number of secondary cases generated per case).Methods: We asked a representative sample of UK adults about their contact patterns on the previous day. The questionnaire was conducted online via email recruitment and documents the age and location of contacts and a measure of their intimacy (whether physical contact was made or not). In addition, we asked about adherence to different physical distancing measures. The first surveys were sent on Tuesday, 24 March, 1 day after a "lockdown" was implemented across the UK. We compared measured contact patterns during the "lockdown" to patterns of social contact made during a non-epidemic period. By comparing these, we estimated the change in reproduction number as a consequence of the physical distancing measures imposed. We used a meta-analysis of published estimates to inform our estimates of the reproduction number before interventions were put in place.Results: We found a 74% reduction in the average daily number of contacts observed per participant (from 10.8 to 2.8). This would be sufficient to reduce R0 from 2.6 prior to lockdown to 0.62 (95% confidence interval [CI] 0.37-0.89) after the lockdown, based on all types of contact and 0.37 (95% CI = 0.22-0.53) for physical (skin to skin) contacts only.Conclusions: The physical distancing measures adopted by the UK public have substantially reduced contact levels and will likely lead to a substantial impact and a decline in cases in the coming weeks. However, this projected decline in incidence will not occur immediately as there are significant delays between infection, the onset of symptomatic disease, and hospitalisation, as well as further delays to these events being reported. Tracking behavioural change can give a more rapid assessment of the impact of physical distancing measures than routine epidemiological surveillance. [ABSTRACT FROM AUTHOR]

Published
2020
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37. Quantifying the impact of physical distance measures on the transmission of COVID-19 in the UK

Author

Jarvis, Christopher I., Van Zandvoort, Kevin, Gimma, Amy, Prem, Kiesha, Auzenbergs, Megan, O’Reilly, Kathleen, Medley, Graham, Emery, Jon C., Houben, Rein M. G. J., Davies, Nicholas, Nightingale, Emily S., Flasche, Stefan, Jombart, Thibaut, Hellewell, Joel, Abbott, Sam, Munday, James D., Bosse, Nikos I., Funk, Sebastian, Sun, Fiona, Endo, Akira, Rosello, Alicia, Procter, Simon R., Kucharski, Adam J., Russell, Timothy W., Knight, Gwen, Gibbs, Hamish, Leclerc, Quentin, Quilty, Billy J., Diamond, Charlie, Liu, Yang, Jit, Mark, Clifford, Samuel, Pearson, Carl A. B., Eggo, Rosalind M., Deol, Arminder K., Klepac, Petra, Rubin, G. James, Edmunds, W. John, and CMMID COVID-19 working group

Subjects
nCov, Activities of daily living, Reproduction number, Psychological intervention, Basic Reproduction Number, lcsh:Medicine, Distance measures, law.invention, 0302 clinical medicine, law, Surveys and Questionnaires, Activities of Daily Living, 030212 general & internal medicine, Social isolation, COVID-19, Pandemic, Contact survey, Disease outbreak, 0303 health sciences, Incidence (epidemiology), Health Policy, Incidence, General Medicine, 3. Good health, Transmission (mechanics), Social Isolation, medicine.symptom, Psychology, Coronavirus Infections, Research Article, Adult, Coronavirus disease 2019 (COVID-19), Distancing, Pneumonia, Viral, 03 medical and health sciences, Betacoronavirus, medicine, Humans, Interpersonal Relations, Epidemics, Pandemics, 030304 developmental biology, business.industry, SARS-CoV-2, lcsh:R, Models, Theoretical, Confidence interval, United Kingdom, Rapid assessment, Contact Tracing, business, Basic reproduction number, Contact tracing, Demography
Abstract

BackgroundTo mitigate and slow the spread of COVID-19, many countries have adopted unprecedented physical distancing policies, including the UK. We evaluate whether these measures might be sufficient to control the epidemic by estimating their impact on the reproduction number (R0, the average number of secondary cases generated per case).MethodsWe asked a representative sample of UK adults about their contact patterns on the previous day. The questionnaire documents the age and location of contacts and as well as a measure of their intimacy (whether physical contact was made or not). In addition, we asked about adherence to different physical distancing measures. The first surveys were sent on Tuesday 24th March, one day after a “ lockdown” was implemented across the UK. We compared measured contact patterns during the “ lockdown” to patterns of social contact made during a non-epidemic period. By comparing these, we estimated the change in reproduction number as a consequence of the physical distancing measures imposed. We used a meta-analysis of published estimates to inform our estimates of the reproduction number before interventions were put in place.FindingsWe found a 73% reduction in the average daily number of contacts observed per participant (from 10.2 to 2.9). This would be sufficient to reduce R0 from 2.6 prior to lockdown to 0.62 (95% confidence interval [CI] 0.37 - 0.89) after the lockdown, based on all types of contact and 0.37 (95% CI = 0.22 - 0.53) for physical contacts only.InterpretationThe physical distancing measures adopted by the UK public have substantially reduced contact levels and will likely lead to a substantial impact and a decline in cases in the coming weeks. However, this projected decline in incidence will not occur immediately as there are significant delays between infection, the onset of symptomatic disease and hospitalisation, as well as further delays to these events being reported. Tracking behavioural change can give a more rapid assessment of the impact of physical distancing measures than routine epidemiological surveillance.Research in contextEvidence before this studyMany governments have adopted physical distancing measures to mitigate the impact of the COVID-19 pandemic. However, it is unclear to what extent these measures reduce the number of contacts and therefore transmission. We searched PubMed and medRxiv on March 28, 2020, with the terms “ (coronavirus OR COVID-19 OR influenza) AND ((school OR work) AND (closure OR holiday)) AND (contact OR mixing)” and identified 59 and 17 results, respectively. Only one study conducted in China during the COVID-19 pandemic reported a reduction in daily contacts outside the home during the period of “ lockdown”. We found no other published articles that empirically quantify the impact of these measures on age- and location-specific mixing patterns.Added value of this studyBy surveying adults’ behaviour in the UK during a period of stringent physical distancing (“ lockdown”) and comparing the results to previously collected data, we found a large reduction in daily contacts particularly outside the home, resulting in a marked reduction in the estimated reproduction number from 2.6 to 0.62 (95% bootstrapped confidence interval [CI] 0.37 - 0.89). This method allows for rapid assessment of changes in the reproduction number that is unaffected by reporting delays.Implications of all the available evidenceChanges in human contact behaviour drive respiratory infection rates. Understanding these changes at different stages of the COVID-19 pandemic allows us to rapidly quantify the impact of physical distancing measures on the transmission of pathogens.

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