Your search keyword '"INCUBATION period (Communicable diseases)"' showing total 5 results

1. Reconstruction of incidence reporting rate for SARS-CoV-2 Delta variant of COVID-19 pandemic in the US.

Author

Smirnova, Alexandra and Baroonian, Mona

Subjects

*SARS-CoV-2 Delta variant, *REPORTING of diseases, *COVID-19 pandemic, *INCUBATION period (Communicable diseases), *VACCINATION

Abstract

In recent years, advanced regularization techniques have emerged as a powerful tool aimed at stable estimation of infectious disease parameters that are crucial for future projections, prevention, and control. Unlike other system parameters, i.e., incubation and recovery rates, the case reporting rate, J, and the time-dependent effective reproduction number, Re(t), are directly influenced by a large number of factors making it impossible to pre-estimate these parameters in any meaningful way. In this study, we propose a novel iteratively-regularized trust-region optimization algorithm, combined with SuSvIuIvRD compartmental model, for stable reconstruction of J and Re(t) from reported epidemic data on vaccination percentages, incidence cases, and daily deaths. The innovative regularization procedure exploits (and takes full advantage of) a unique structure of the Jacobian and Hessian approximation for the nonlinear observation operator. The proposed inversion method is thoroughly tested with synthetic and real SARS-CoV-2 Delta variant data for different regions in the United States of America from July 9, 2021, to November 25, 2021. Our study shows that case reporting rate during the Delta wave of COVID-19 pandemic in the US is between 12% and 37%, with most states being in the range from 15% to 25%. This confirms earlier accounts on considerable under-reporting of COVID-19 cases due to the impact of "silent spreaders" and the limitations of testing. [ABSTRACT FROM AUTHOR]

Published

2024

2. Serial Interval and Incubation Period Estimates of Monkeypox Virus Infection in 12 Jurisdictions, United States, May-August 2022.

Author

Madewell, Zachary J., Charniga, Kelly, Masters, Nina B., Asher, Jason, Fahrenwald, Lily, Still, William, Chen, Judy, Kipperman, Naama, Bui, David, Shea, Meghan, Saunders, Katharine, Saathoff-Huber, Lori, Johnson, Shannon, Harbi, Khalil, Berns, Abby L., Perez, Taidy, Gateley, Emily, Spicknall, Ian H., Nakazawa, Yoshinori, and Gift, Thomas L.

Subjects

*VIRUS diseases, *INCUBATION period (Communicable diseases), *MONKEYPOX, *JURISDICTION, *SYMPTOMS

Abstract

Using data from 12 US health departments, we estimated mean serial interval for monkeypox virus infection to be 8.5 (95% credible interval 7.3-9.9) days for symptom onset, based on 57 case pairs. Mean estimated incubation period was 5.6 (95% credible interval 4.3-7.8) days for symptom onset, based on 35 case pairs. [ABSTRACT FROM AUTHOR]

Published

2023

3. Daily Forecasting of Regional Epidemics of Coronavirus Disease with Bayesian Uncertainty Quantification, United States.

Author

Yen Ting Lin, Neumann, Jacob, Miller, Ely F., Posner, Richard G., Mallela, Abhishek, Safta, Cosmin, Ray, Jaideep, Thakur, Gautam, Chinthavali, Supriya, Hlavacek, William S., and Lin, Yen Ting

Subjects

*COVID-19, *COVID-19 pandemic, *STANDARD metropolitan statistical areas, *INCUBATION period (Communicable diseases), *SOCIAL distancing, *INFECTIOUS disease transmission, *PREVENTION of epidemics, *SOCIAL participation, *MATHEMATICAL models, *DISEASE incidence, *UNCERTAINTY, *PSYCHOLOGICAL tests, *FORECASTING, *THEORY, *RESEARCH funding, *PROBABILITY theory

Abstract

To increase situational awareness and support evidence-based policymaking, we formulated a mathematical model for coronavirus disease transmission within a regional population. This compartmental model accounts for quarantine, self-isolation, social distancing, a nonexponentially distributed incubation period, asymptomatic persons, and mild and severe forms of symptomatic disease. We used Bayesian inference to calibrate region-specific models for consistency with daily reports of confirmed cases in the 15 most populous metropolitan statistical areas in the United States. We also quantified uncertainty in parameter estimates and forecasts. This online learning approach enables early identification of new trends despite considerable variability in case reporting. [ABSTRACT FROM AUTHOR]

Published

2021

4. Ranking non-pharmaceutical interventions against Covid-19 global pandemic using global sensitivity analysis—Effect on number of deaths.

Author

Hanthanan Arachchilage, Kalpana and Hussaini, Mohammed Yousuff

Subjects

*COVID-19 pandemic, *GLOBAL analysis (Mathematics), *PANDEMICS, *SENSITIVITY analysis, *SOCIAL distancing, *DEATH forecasting, *INCUBATION period (Communicable diseases)

Abstract

• Global sensitivity analysis is used to rank non-pharmaceutical interventions against Covid-19. • Accurate estimation of the incubation period reduces the early prediction uncertainty. • Social distancing and masks reduce the uncertainty of the number of death predictions by 25–45%. • Simultaneous implementation of interventions leads to an additional 10% uncertainty reduction. In this study, we use Global Sensitivity Analysis (GSA) to rank four non-pharmaceutical interventions (NPIs) in a deterministic compartmental model that might control Covid-19 related deaths in the United States. The NPIs are social distancing, isolation of infected individuals, identifying asymptomatically infected individuals through testing, and the use of face masks. The model uses a fear-based behavioral model that leads unmasked susceptible individuals to wear masks. The model parameters are estimated from the reported deaths for the United States of America from March 1, 2020 to November 26, 2020. Two GSA tools, the Sobol' sesntivity indices and Partial Rank Correlation Coefficient are used to obtain the rankings of the input parameters at different stages of the disease propagation. We found that social distancing and outward mask efficiency alone decreases the output uncertainty by 25–45%. Sobol' second order indices show that the combined effect of social distancing with increased mask usage and identifying and isolating asymptomatically infected individuals decreases uncertainty an additional 10%. [ABSTRACT FROM AUTHOR]

Published

2021

5. EBOLA.

Subjects

EBOLA virus disease, PHYSICIANS, INCUBATION period (Communicable diseases), SYMPTOMS, HEALTH education

Abstract

The article presents facts about Ebola virus that physicians in the U.S. need to know. Topics covered include the virus' incubation period, the symptoms and signs of Ebola infection including muscle pain, fever, and severe headache, and the risk of exposure. Also mentioned is the American Medical Association's Ebola Resource Center designed to provide Ebola information to physicians and healthcare workers.

Published

2014