22 Matching Annotations
  1. Dec 2021
  2. www.pnas.org www.pnas.org
    An upper bound on one-to-one exposure to infectious human respiratory particles
    1
    1. lucyparfitt16 06 Dec 2021

      Bagheri, G., Thiede, B., Hejazi, B., Schlenczek, O., & Bodenschatz, E. (2021). An upper bound on one-to-one exposure to infectious human respiratory particles. Proceedings of the National Academy of Sciences, 118(49). https://doi.org/10.1073/pnas.2110117118

      is:article lang:en COVID-19 infection risk face mask near-field model modeling masking social distancing mask wearing transmission airborne transmission effectiveness exposure risk
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    pnas.org/content/118/49/e2110117118
  3. Jul 2021
  4. twitter.com twitter.com
    Lee Kennedy-Shaffer on Twitter
    1
    1. jasminehollingworth 26 Jul 2021

      Lee Kennedy-Shaffer. (2021, May 6). .@rebeccajk13 and @mlipsitch showed how to use that to estimate efficacy against prevalent infection (https://t.co/LeXxqcumGS). [Tweet]. @LeeKShaffer. https://twitter.com/LeeKShaffer/status/1390322501817880581

      lang:en is:tweet COVID-19 effectiveness vaccine vaccination preprint prevention disease pandemic transmission infection viral assumption public health practice model
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    twitter.com/LeeKShaffer/status/1390322501817880581
  5. May 2021
  6. www.nature.com www.nature.com
    Modelling the impact of testing, contact tracing and household quarantine on second waves of COVID-19
    1
    1. SIYANYE 07 May 2021

      Aleta, A., Martín-Corral, D., Pastore y Piontti, A., Ajelli, M., Litvinova, M., Chinazzi, M., Dean, N. E., Halloran, M. E., Longini Jr, I. M., Merler, S., Pentland, A., Vespignani, A., Moro, E., & Moreno, Y. (2020). Modelling the impact of testing, contact tracing and household quarantine on second waves of COVID-19. Nature Human Behaviour, 1–8. https://doi.org/10.1038/s41562-020-0931-9

      lang:en is:article model testing contact household quarantine COVID-19 social distance COVID-19 transmission immunity
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    nature.com/articles/s41562-020-0931-9
  7. Mar 2021
  8. stm.sciencemag.org stm.sciencemag.org
    Using influenza surveillance networks to estimate state-specific prevalence of SARS-CoV-2 in the United States
    1
    1. SIYANYE 19 Mar 2021

      Silverman, J. D., Hupert, N., & Washburne, A. D. (2020). Using influenza surveillance networks to estimate state-specific prevalence of SARS-CoV-2 in the United States. Science Translational Medicine. https://doi.org/10.1126/scitranslmed.abc1126

      lang:en is:article influenza surveillance U.S. detection infection COVID-19 prevalence COVID-19 community transmission model epidemiology
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    stm.sciencemag.org/content/early/2020/06/22/scitranslmed.abc1126.full
  9. Feb 2021
  10. www.scientificamerican.com www.scientificamerican.com
    COVID Models Show How to Avoid Future Lockdowns
    1
    1. jasminehollingworth 26 Feb 2021

      McKenna, S. (n.d.). COVID Models Show How to Avoid Future Lockdowns. Scientific American. Retrieved 26 February 2021, from https://www.scientificamerican.com/article/covid-models-show-how-to-avoid-future-lockdowns/

      lang:en is:blog COVID-19 model lockdown future policy mask social distancing USA public health national global virus pandemic strategy holiday transmission scientist behavior effective uncertainty
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    scientificamerican.com/article/covid-models-show-how-to-avoid-future-lockdowns/
  11. link.aps.org link.aps.org
    Effect of heterogeneous risk perception on information diffusion, behavior change, and disease transmission
    1
    1. jasminehollingworth 24 Feb 2021

      Ye, Y., Zhang, Q., Ruan, Z., Cao, Z., Xuan, Q., & Zeng, D. D. (2020). Effect of heterogeneous risk perception on information diffusion, behavior change, and disease transmission. Physical Review E, 102(4), 042314. https://doi.org/10.1103/PhysRevE.102.042314

      lang:en is:article COVID-19 heterogeneous risk perception information diffusion behavior change disease transmission outbreak model infection infected approximation rate epidemic prevention case media leader opinion population global protection
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    link.aps.org/doi/10.1103/PhysRevE.102.042314
  12. journals.plos.org journals.plos.org
    Quantifying the impact of COVID-19 control measures using a Bayesian model of physical distancing
    1
    1. jasminehollingworth 24 Feb 2021

      Anderson, S. C., Edwards, A. M., Yerlanov, M., Mulberry, N., Stockdale, J. E., Iyaniwura, S. A., Falcao, R. C., Otterstatter, M. C., Irvine, M. A., Janjua, N. Z., Coombs, D., & Colijn, C. (2020). Quantifying the impact of COVID-19 control measures using a Bayesian model of physical distancing. PLOS Computational Biology, 16(12), e1008274. https://doi.org/10.1371/journal.pcbi.1008274

      lang:en is:article COVID-19 control measure Bayseian model physical distancing distance non-pharmaceutical primary intervention disease impact epidemiological British Columbia social distancing transmission wave
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    journals.plos.org/ploscompbiol/article
  13. Jan 2021
  14. journals.plos.org journals.plos.org
    Using information theory to optimise epidemic models for real-time prediction and estimation
    1
    1. Grace1999 18 Jan 2021

      Parag. K. V., Donnelly. C. A., (2020) Using information theory to optimise epidemic models for real-time prediction and estimation. PLOS. Retrieved from https://journals.plos.org/ploscompbiol/article?id=10.1371/journal.pcbi.1007990

      is:article lang:en COVID-19 Transmission Reproduction number Modeling Prediction branching-process model Information theory
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    journals.plos.org/ploscompbiol/article
  15. covid-19.iza.org covid-19.iza.org
    COVID-19 and the Labor Market
    1
    1. Grace1999 18 Jan 2021

      Abel. M., Brown. W., (2020) Prosocial Behavior in the Time of COVID-19: The Effect of Private and Public Role Models. Institute of labor and economics. Retrieved from:https://covid-19.iza.org/publications/dp13207/

      is:article lang:en COVID-19 Prosociality Role models Transmission Protective behaviours Norm Activation model Behavior Science
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    covid-19.iza.org/publications/dp13207/
  16. covid-19.iza.org covid-19.iza.org
    COVID-19 and the Labor Market
    1
    1. Grace1999 18 Jan 2021

      Donsimoni. J. R., Glawion. R., Plachter. B., Walde. K., (2020). Projecting the Spread of COVID-19 for Germany. Institute of labor economics. Retrieved from: https://covid-19.iza.org/publications/dp13094/

      is:article lang:en COVID-19 Germany Markov model Projection SARS-CoV-2 Spread of infection Modeling Social distancing Transmission
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    covid-19.iza.org/publications/dp13094/
  17. Oct 2020
  18. www.nature.com www.nature.com
    Pathogenesis and transmission of SARS-CoV-2 in golden hamsters
    1
    1. ErikStuchly 06 Oct 2020

      Sia, S. F., Yan, L.-M., Chin, A. W. H., Fung, K., Choy, K.-T., Wong, A. Y. L., Kaewpreedee, P., Perera, R. A. P. M., Poon, L. L. M., Nicholls, J. M., Peiris, M., & Yen, H.-L. (2020). Pathogenesis and transmission of SARS-CoV-2 in golden hamsters. Nature, 583(7818), 834–838. https://doi.org/10.1038/s41586-020-2342-5

      is:article lang:en COVID-19 transmission pathogenesis animal hamster model immune response infection aerosol secretion symptom clinical outcome
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    nature.com/articles/s41586-020-2342-5
  19. Sep 2020
  20. ideas.repec.org ideas.repec.org
    Partisanship and the Spread of COVID-19 in the United States
    1
    1. Grace1999 25 Sep 2020

      Kubinec, Robert & Carvalho, Luiz & Barceló, Joan & Cheng, Cindy & Hartnett, Allison & Messerschmidt, Luca & Duba, Derek & Cottrell, Matthew Sean, 2020. "Partisanship and the Spread of COVID-19 in the United States," SocArXiv jp4wk, Center for Open Science. Retrieved from: https://ideas.repec.org/p/osf/socarx/jp4wk.html

      is:article lang:en COVID-19 Modeling Bayesian latent variable model USA Infection rates Transmission Sociopolitical covariates
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    ideas.repec.org/p/osf/socarx/jp4wk.html
  21. www.medrxiv.org www.medrxiv.org
    COVID-19 scenarios for the United States
    1
    1. ErikStuchly 07 Sep 2020

      Team, I. C.-19 F., & Hay, S. I. (2020). COVID-19 scenarios for the United States. MedRxiv, 2020.07.12.20151191. https://doi.org/10.1101/2020.07.12.20151191

      is:preprint lang:en COVID-19 scenario analysis modeling USA prediction epidemiology transmission compartmental model mortality intervention efficacy face mask safety measure public health
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    medrxiv.org/cgi/content/10.1101/2020.07.12.20151191
  22. Aug 2020
  23. science.sciencemag.org science.sciencemag.org
    Evolution and epidemic spread of SARS-CoV-2 in Brazil
    1
    1. Danaeioak 28 Aug 2020

      Candido, D. S., Claro, I. M., Jesus, J. G. de, Souza, W. M., Moreira, F. R. R., Dellicour, S., Mellan, T. A., Plessis, L. du, Pereira, R. H. M., Sales, F. C. S., Manuli, E. R., Thézé, J., Almeida, L., Menezes, M. T., Voloch, C. M., Fumagalli, M. J., Coletti, T. M., Silva, C. A. M. da, Ramundo, M. S., … Faria, N. R. (2020). Evolution and epidemic spread of SARS-CoV-2 in Brazil. Science. https://doi.org/10.1126/science.abd2161

      is:report lang:en COVID-19 Brazil epidemiology transmission mobility non-pharmaceutical interventions transmission model travel virus evolution
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    science.sciencemag.org/content/early/2020/07/22/science.abd2161.full
  24. www.nber.org www.nber.org
    The Macroeconomics of Epidemics
    1
    1. Danaeioak 28 Aug 2020

      Eichenbaum, M. S., Rebelo, S., & Trabandt, M. (2020). The Macroeconomics of Epidemics (Working Paper No. 26882; Working Paper Series). National Bureau of Economic Research. https://doi.org/10.3386/w26882

      is:article lang:en macroeconomics epidemic canonical epidemiology model decision making consumption work recession transmission containment policy death rate
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    nber.org/papers/w26882
  25. www.nature.com www.nature.com
    The geography of COVID-19 spread in Italy and implications for the relaxation of confinement measures
    1
    1. Danaeioak 27 Aug 2020

      Bertuzzo, E., Mari, L., Pasetto, D., Miccoli, S., Casagrandi, R., Gatto, M., & Rinaldo, A. (2020). The geography of COVID-19 spread in Italy and implications for the relaxation of confinement measures. Nature Communications, 11(1), 4264. https://doi.org/10.1038/s41467-020-18050-2

      is:article lang:en COVID-19 geography lockdown relaxation transmission epidemiology spatially explicit model
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    nature.com/articles/s41467-020-18050-2
  26. www.nber.org www.nber.org
    The Hammer and the Scalpel: On the Economics of Indiscriminate versus Targeted Isolation Policies during Pandemics
    1
    1. katietaylor_99 11 Aug 2020

      Chari, Varadarajan V, Rishabh Kirpalani, and Christopher Phelan. ‘The Hammer and the Scalpel: On the Economics of Indiscriminate versus Targeted Isolation Policies during Pandemics’. Working Paper. Working Paper Series. National Bureau of Economic Research, May 2020. https://doi.org/10.3386/w27232.

      is:report lang:en COVID-19 economics indiscriminate targeted isolation policies pandemics dynamic economic model epidemic transmission SIR benefits and costs welfare gains intervention recession mortality cumulative deaths
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    nber.org/papers/w27232
  27. www.nber.org www.nber.org
    Covid-19 Infection Externalities: Trading Off Lives vs. Livelihoods
    1
    1. Marlene_Wulf 10 Aug 2020

      Bethune, Z. A., & Korinek, A. (2020). Covid-19 Infection Externalities: Trading Off Lives vs. Livelihoods (Working Paper No. 27009; Working Paper Series). National Bureau of Economic Research. https://doi.org/10.3386/w27009

      is:preprint lang:en COVID-19 social interaction economic interaction transmission infectious diseases SIR model USA economy precautionary behavior flatten the curve public policy measure containment recession
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    nber.org/papers/w27009
  28. Jul 2020
  29. osf.io osf.io
    Disease Detectives: Using Mathematics to Forecast the Spread of Infectious Diseases
    1
    1. ErikStuchly 12 Jul 2020

      Brooks, H. Z., Kanjanasaratool, U., Kureh, Y. H., & Porter, M. A. (2020). Disease Detectives: Using Mathematics to Forecast the Spread of Infectious Diseases [Preprint]. SocArXiv. https://doi.org/10.31235/osf.io/mvn9z

      is:preprint lang:en COVID-19 transmission modeling prediction loosening restrictions policy compartmental model data analysis behavior physical distancing
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    osf.io/preprints/socarxiv/mvn9z/
  30. Jun 2020
  31. psyarxiv.com psyarxiv.com
    Capability, opportunity and motivation to enact hygienic practices in the early stages of the COVID-19 outbreak in the UK
    1
    1. edampf 19 Jun 2020

      Gibson Miller, J., Hartman, T. K., Levita, L., Martinez, A. P., Mason, L., McBride, O., … Bentall, R. (2020, April 20). Capability, opportunity and motivation to enact hygienic practices in the early stages of the COVID-19 outbreak in the UK. https://doi.org/10.31234/osf.io/typqv

      is:preprint lang:en COVID-19 UK hygienic practice behavioral change COM-B transmission motivation survey longitudinal self-report regression model social support knowledge sharing communication male men
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    psyarxiv.com/typqv/
  32. May 2020
  33. wellcomeopenresearch.org wellcomeopenresearch.org
    Estimating the overdispersion in COVID-19 transmission using outbreak sizes outside China
    1
    1. edampf 27 May 2020

      Endo, A., Centre for the Mathematical Modelling of Infectious Diseases COVID-19 Working Group, Abbott, S., Kucharski, A. J., & Funk, S. (2020). Estimating the overdispersion in COVID-19 transmission using outbreak sizes outside China. Wellcome Open Research, 5, 67. https://doi.org/10.12688/wellcomeopenres.15842.1

      is:article lang:en COVID-19 overdispersion superspreading branching process transmission dynamics mathematics modeling branching process model secondary transmission R
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    wellcomeopenresearch.org/articles/5-67
  34. www.nature.com www.nature.com
    Applying principles of behaviour change to reduce SARS-CoV-2 transmission
    1
    1. Marlene_Wulf 07 May 2020

      West, R., Michie, S., Rubin, G. J., & Amlôt, R. (2020). Applying principles of behaviour change to reduce SARS-CoV-2 transmission. Nature Human Behaviour, 1–9. https://doi.org/10.1038/s41562-020-0887-9

      is:article lang:en COVID-19 behavior behavior change transmission reduce pharmaceutical intervention isolation social distancing measure response effectiveness intervention evidence science method model
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    nature.com/articles/s41562-020-0887-9