Development of an interactive, agent-based local stochastic model of COVID-19 transmission and evaluation of mitigation strategies illustrated for the state of Massachusetts, USA

Kirpich, Alexander; Koniukhovskii, Vladimir; Shvartc, Vladimir; Skums, Pavel; Weppelmann, Thomas A.; Imyanitov, Evgeny N.; Semyonov, Semyon; Barsukov, Konstantin; Gankin, Yuriy

doi:10.1371/journal.pone.0247182

Cited by 14 publications

(13 citation statements)

References 28 publications

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“…To investigate the COVID-19 epidemic in Ukraine and to assess its dynamics under different mitigation scenarios, we utilized our general stochastic agent-based modeling framework ( Kirpich et al, 2021 ). The model was adjusted to the Ukrainian settings and fit into the observed Ukrainian data.…”

Section: Methodsmentioning

confidence: 99%

“…The reported data was separated into three parts. The initially reported cases from March 12, 2020 to April 12, 2020 were retrospectively incorporated into the model as the initial conditions ( Kirpich et al, 2021 ). The reported and model-produced data from April 22, 2020 to July 12, 2020 were used for model calibration, and from July 13, 2020 to August 1, 2020 – for model validation.…”

Section: Methodsmentioning

confidence: 99%

“…Optimization of model parameters has been performed by minimizing the sum of squared differences between the model-produced outputs (across multiple runs) and the calibration data using the Nelder-Mead numerical minimization method ( Nelder and Mead, 1965 ). The population basic reproduction number

Milligan and Barrett (2015) has been estimated from the model-produced distribution quantiles (5%, median, 95%) of the reproduction numbers of individuals and summarized across multiple stochastic runs ( Kirpich et al, 2021 ). The estimates for

were produced from the model fit to real data with the assumption that interventions have started almost immediately after the virus introduction.…”

Section: Methodsmentioning

confidence: 99%

“…The additional details about the model can be found in our earlier study ( Kirpich et al, 2021 ), and the model implementation tailored to Ukrainian data is available at https://github.com/quantori/COVID19-Ukraine-Transmission .…”

Section: Methodsmentioning

confidence: 99%

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Investigating the first stage of the COVID-19 pandemic in Ukraine using epidemiological and genomic data

Gankin¹,

Nemira

Koniukhovskii³

et al. 2021

Infection, Genetics and Evolution

Self Cite

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The novel coronavirus SARS-CoV-2 was first detected in China in December 2019 and has rapidly spread around the globe. The World Health Organization declared COVID-19 a pandemic in March 2020 just three months after the introduction of the virus. Individual nations have implemented and enforced a variety of social distancing interventions to slow the virus spread, that had different degrees of success. Understanding the role of non-pharmaceutical interventions (NPIs) on COVID-19 transmission in different settings is highly important. While most such studies have focused on China, neighboring Asian counties, Western Europe, and North America, there is a scarcity of studies for Eastern Europe. The aim of this epidemiological study is to fill this gap by analyzing the characteristics of the first months of the epidemic in Ukraine using agent-based modelling and phylodynamics. Specifically, first we studied the dynamics of COVID-19 incidence and mortality and explored the impact of epidemic NPIs. Our stochastic model suggests, that even a small delay of weeks could have increased the number of cases by up to 50%, with the potential to overwhelm hospital systems. Second, the genomic data analysis suggests that there have been multiple introductions of SARS-CoV-2 into Ukraine during the early stages of the epidemic. Our findings support the conclusion that the implemented travel restrictions may have had limited impact on the epidemic spread. Third, the basic reproduction number for the epidemic that has been estimated independently from case counts data and from genomic data suggest sustained intra-country transmissions.

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Section: Methodsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

were produced from the model fit to real data with the assumption that interventions have started almost immediately after the virus introduction.…”

Section: Methodsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

See 2 more Smart Citations

Investigating the first stage of the COVID-19 pandemic in Ukraine using epidemiological and genomic data

Gankin¹,

Nemira

Koniukhovskii³

et al. 2021

Infection, Genetics and Evolution

Self Cite

View full text Add to dashboard Cite

show abstract

“…Second, our estimated instantaneous reproduction numbers are closely aligned with the daily mobility pattern, suggesting that the lock-down and stay-at-home order are effective for controlling the COVID-19 outbreak in Massachusetts. Previous research also found the NPIs, including lock-down and stay-at-home order, were effective for containing the COVID-19 outbreak and reducing the public healthcare burden in the state of Massachusetts [32], in the United States [33] and worldwide [34,35]. Third, we observed the daily mobility was slowly increasing from May 2020, and this could explain why the reproduction number estimates rose again around May 11, at which point the reopening plan was unveiled for Massachusetts.…”

Section: Plos Computational Biologymentioning

confidence: 93%

Bayesian back-calculation and nowcasting for line list data during the COVID-19 pandemic

White

2021

PLoS Comput Biol

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Surveillance is critical to mounting an appropriate and effective response to pandemics. However, aggregated case report data suffers from reporting delays and can lead to misleading inferences. Different from aggregated case report data, line list data is a table contains individual features such as dates of symptom onset and reporting for each reported case and a good source for modeling delays. Current methods for modeling reporting delays are not particularly appropriate for line list data, which typically has missing symptom onset dates that are non-ignorable for modeling reporting delays. In this paper, we develop a Bayesian approach that dynamically integrates imputation and estimation for line list data. Specifically, this Bayesian approach can accurately estimate the epidemic curve and instantaneous reproduction numbers, even with most symptom onset dates missing. The Bayesian approach is also robust to deviations from model assumptions, such as changes in the reporting delay distribution or incorrect specification of the maximum reporting delay. We apply the Bayesian approach to COVID-19 line list data in Massachusetts and find the reproduction number estimates correspond more closely to the control measures than the estimates based on the reported curve.

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ArchABM: An agent-based simulator of human interaction with the built environment. CO2 and viral load analysis for indoor air quality

Martı́nez

Bruse

Florez-Tapia

et al. 2022

Building and Environment

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Development of an interactive, agent-based local stochastic model of COVID-19 transmission and evaluation of mitigation strategies illustrated for the state of Massachusetts, USA

Cited by 14 publications

References 28 publications

Investigating the first stage of the COVID-19 pandemic in Ukraine using epidemiological and genomic data

Investigating the first stage of the COVID-19 pandemic in Ukraine using epidemiological and genomic data

Bayesian back-calculation and nowcasting for line list data during the COVID-19 pandemic

ArchABM: An agent-based simulator of human interaction with the built environment. CO2 and viral load analysis for indoor air quality

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