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1. Modelling the impact of travel restrictions on COVID-19 cases in Hong Kong in early 2020

   https://doi.org/10.1186/s12889-021-11889-0  

   Kwok, Wang-Chun; Wong, Chun-Ka; Ma, Ting-Fung; Ho, Ka-Wai; Fan, Louis Wai-Tong; Chan, King-Pui Florence; Chan, Samuel Shung-Kay; Tam, Terence Chi-Chun; Ho, Pak-Leung (December 2021, BMC Public Health)

   Abstract Background Coronavirus Disease 2019 (COVID-19) led to pandemic that affected almost all countries in the world. Many countries have implemented border restriction as a public health measure to limit local outbreak. However, there is inadequate scientific data to support such a practice, especially in the presence of an established local transmission of the disease. Objective To apply a metapopulation Susceptible-Exposed-Infectious-Recovered (SEIR) model with inspected migration to investigate the effect of border restriction as a public health measure to limit outbreak of coronavirus disease 2019. Methods We apply a modified metapopulation SEIR model with inspected migration with simulating population migration, and incorporating parameters such as efficiency of custom inspection in blocking infected travelers in the model. The population sizes were retrieved from government reports, while the number of COVID-19 patients were retrieved from Hong Kong Department of Health and China Centre for Disease Control (CDC) data. The R 0 was obtained from previous clinical studies. Results Complete border closure can help to reduce the cumulative COVID-19 case number and mortality in Hong Kong by 13.99% and 13.98% respectively. To prevent full occupancy of isolation facilities in Hong Kong; effective public health measures to reduce local R 0 to below 1.6 was necessary, apart from having complete border closure. Conclusions Early complete travel restriction is effective in reducing cumulative cases and mortality. However, additional anti-COVID-19 measures to reduce local R 0 to below 1.6 are necessary to prevent COVID-19 cases from overwhelming hospital isolation facilities. 

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2. Urban Vegetation Slows Down the Spread of Coronavirus Disease (COVID‐19) in the United States

   https://doi.org/10.1029/2020GL089286  

   You, Yongfa; Pan, Shufen (September 2020, Geophysical Research Letters)

   Abstract Coronavirus Disease 2019 (COVID‐19) is spreading around the world, and the United States has become the epicenter of the global pandemic. However, little is known about the causes behind the large spatial variability of the COVID‐19 incidence. Here we use path analysis model to quantify the influence of four potential factors (urban vegetation, population density, air temperature, and baseline infection) in shaping the highly heterogeneous transmission patterns of COVID‐19 across the United States. Our results show that urban vegetation can slow down the spread of COVID‐19, and each 1% increase in the percentage of urban vegetation will lead to a 2.6% decrease in cumulative COVID‐19 cases. Additionally, the mediating role of urban vegetation suggests that urban vegetation could reduce increases in cumulative COVID‐19 cases induced by population density and baseline infection. Our findings highlight the importance of urban vegetation in strengthening urban resilience to public health emergencies. 

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3. Controlling COVID-19: The Folly of International Travel Restrictions

   Yu, Weijun; Keralis, Jessica (April 2020, Health and human rights)

   null (Ed.)

   The global public health community is grappling with COVID-2019, a respiratory disease outbreak caused by a novel coronavirus originating from Wuhan, China in late December 2019. A number of countries implemented citizenship-based travel restrictions in late January and early February as an initial response to the outbreak, barring entry to foreign nationals who had previously been in China to prevent the importation of the virus. By early March, when the World Health Organization (WHO) formally declared the outbreak to be a global pandemic, these countries were still relying on travel restrictions as a means of infection control. These travel restrictions constituted restrictions or outright bans on the entry of foreign nationals with a particular citizenship-such policies tend to be popular with a general public with limited public health knowledge. However, travel restrictions are ineffective as an infection control measure and may do more harm than good, depriving the public of its right to health. Furthermore, travel restrictions implemented under the guise of public health policy have historically been used to target migrants and racial and ethnic minorities, violating their rights to nondiscrimination and equal treatment. As states rush to balance public health with politics in their response to this global pandemic, they are sidelining human rights rather than protecting them 

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4. An overview of the effect of bioaerosol size in coronavirus disease 2019 transmission

   https://doi.org/10.1002/hpm.3095  

   Guzman, Marcelo I. (December 2020, The International Journal of Health Planning and Management)

   Abstract The fast spread of coronavirus disease 2019 (COVID‐19) constitutes a worldwide challenge to the public health, educational and trade systems, affecting the overall well‐being of human societies. The high transmission and mortality rates of this virus, and the unavailability of a vaccine or treatment, resulted in the decision of multiple governments to enact measures of social distancing. Such measures can reduce the exposure to bioaerosols, which can result in pathogen deposition in the respiratory tract of the host causing disease and an immunological response. Thus, it is important to consider the validity of the proposal for keeping a distance of at least 2 m from other persons to avoid the spread of COVID‐19. This work reviews the effect of aerodynamic diameter (size) of particles carrying RNA copies of severe acute respiratory syndrome coronavirus 2 (SARS‐CoV‐2). A SARS‐CoV‐2 carrier person talking, sneezing or coughing at distance of 2 m can still provide a pathogenic bioaerosol load with submicron particles that remain viable in air for up to 3 h for exposure of healthy persons near and far from the source in a stagnant environment. The deposited bioaerosol creates contaminated surfaces, which if touched can act as a path to introduce the pathogen by mouth, nose or eyes and cause disease. 

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5. Quantifying the Population-Level Effect of the COVID-19 Mass Vaccination Campaign in Israel: A Modeling Study

   https://doi.org/10.1093/ofid/ofac087  

   Somekh, Ido; KhudaBukhsh, Wasiur R; Root, Elisabeth Dowling; Boker, Lital Keinan; Rempala, Grzegorz; Simões, Eric A; Somekh, Eli (May 2022, Open Forum Infectious Diseases)

   Abstract Background Estimating real-world vaccine effectiveness is challenging as a variety of population factors can impact vaccine effectiveness. We aimed to assess the population-level reduction in cumulative severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) cases, hospitalizations, and mortality due to the BNT162b2 mRNA coronavirus disease 2019 (COVID-19) vaccination campaign in Israel during January–February 2021. Methods A susceptible-infected-recovered/removed (SIR) model and a Dynamic Survival Analysis (DSA) statistical approach were used. Daily counts of individuals who tested positive and of vaccine doses administered, obtained from the Israeli Ministry of Health, were used to calibrate the model. The model was parameterized using values derived from a previous phase of the pandemic during which similar lockdown and other preventive measures were implemented in order to take into account the effect of these prevention measures on COVID-19 spread. Results Our model predicted for the total population a reduction of 648 585 SARS-CoV-2 cases (75% confidence interval [CI], 25 877–1 396 963) during the first 2 months of the vaccination campaign. The number of averted hospitalizations for moderate to severe conditions was 16 101 (75% CI, 2010–33 035), and reduction of death was estimated at 5123 (75% CI, 388–10 815) fatalities. Among children aged 0–19 years, we estimated a reduction of 163 436 (75% CI, 0–433 233) SARS-CoV-2 cases, which we consider to be an indirect effect of the vaccine. Conclusions Our results suggest that the rapid vaccination campaign prevented hundreds of thousands of new cases as well as thousands of hospitalizations and fatalities and has probably averted a major health care crisis. 

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