New Approaches to Assessing and Forecasting Morbidity With Enterovirus (Non-Polio) Infection in the Russian Federation Using Mathematical Models

Aim. To study mathematical models for predicting the incidence of non-polio enterovirus infections (NPEVI) in the Kemerovo Region.Materials and Methods. Here we conducted a retrospective epidemiological study of NPEVI incidence in the Kemerovo region from 2006 to 2021 (n = 2152 cases). Epidemic process was studied using autocorrelation analysis, Fourier analysis, and neural networks using STATISTICA Automated Neural Networks (SANN) tool and StatTech v. 3.0.5.Results. The incidence rates of NPEVI were 9,39 per 100,000 population (2009), 15,78 per 100,000 population (2015) and 8,41 per 100,000 population (2019), exceeding the average median value (2006- 2021) by a factor of 2.4, 4.1, and 2.2, respectively. NPEVI incidence was largely determined by enteroviral meningitis. The majority of cases (89.94%) were registered in children. Notably, standard mathematical models failed to provide an objective analysis of the incidence trend. Autocorrelation analysis found the summer-autumn seasonality (August-October) by evaluating the ratio of actual data to 12-month rolling averages. Modeling of the epidemic process of NPEVI using neural networks highly likely predicted its incidence up to 52 months.Conclusion. The epidemic process of NPEVI in Kemerovo region has been characterized by a low intensity and summer-autumn seasonality. Neural networks are suggested as a promising tool to forecast the incidence of NPEVI.

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Current approaches to modeling of epidemic process of non-polio Enterovirus infections

Новоселова

Potseluev

Брусина

2023

Fundamentalʹnaâ i kliničeskaâ medicina

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Algorithmic Approach to Determination of Epidemic Thresholds in Infectious Disease Surveillance Systems

Blokh,

Letushev,

Penyevskaya

et al. 2024

PH&LE

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Introduction: This review is devoted to the algorithmic approach to establishing epidemic thresholds for a wide range of diseases, including influenza and acute respiratory infections. Objective: To compare Russian and foreign approaches to the determination of epidemic thresholds within public health surveillance systems. Materials and methods: To reveal the algorithmic approach to establishing epidemic thresholds in the epidemiological surveillance system, we summarized the results of 14 foreign scientific works and two domestic method guidelines published before December 31, 2023. The literature search was conducted in the eLibrary, CyberLeninka, PubMed, and Google Scholar databases using the keywords “epidemic threshold” and “epidemic”. We compared domestic and foreign algorithms for establishing epidemic thresholds by various characteristics, including the statistical method used, determination of a numerical value of the epidemic threshold, complexity of the algorithm, and the possibility of automating calculations. Results: Here we discuss the classification and comparative characteristics of the basic algorithms for determining epidemic thresholds used in various countries of the world when carrying out epidemiological surveillance (including the syndromic one). We describe the existing methods for establishing and presenting epidemic thresholds, as well as the sequence of steps for performing the Farrington algorithms, the Early Aberration Detection System C1–C3, the Method of Moving Epidemics, the Method of Moving Percentiles, Multi-level identification of increasing activity by indicators taking into account mixed effects, as well as algorithms provided in Russian Method Guidelines MR 3.1.2.0118–17 and MR 3.1.2.0303–22. We also dwell on the problems of development, accuracy assessment and prospects for the implementation of existing and developed algorithms. Conclusions: Current algorithms for establishing epidemic thresholds in epidemiological surveillance systems around the world are diverse; they rely on different statistical methods and vary in complexity. To date, there is no convincing evidence of higher efficiency of any algorithm.

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New Approaches to Assessing and Forecasting Morbidity With Enterovirus (Non-Polio) Infection in the Russian Federation Using Mathematical Models

Cited by 2 publications

References 10 publications

Current approaches to modeling of epidemic process of non-polio Enterovirus infections

Current approaches to modeling of epidemic process of non-polio Enterovirus infections

Algorithmic Approach to Determination of Epidemic Thresholds in Infectious Disease Surveillance Systems

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