A multilayer network model of Covid-19: Implications in public health policy in Costa Rica.

Sanchez, Fabio; Calvo, Juan G; Mery, Gustavo; García, Yury E; Vásquez, Paola; Barboza, Luis A; Pérez, María Dolores; Rivas, Tania

Sanchez, Fabio; Calvo, Juan G; Mery, Gustavo; García, Yury E; Vásquez, Paola; Barboza, Luis A; Pérez, María Dolores; Rivas, Tania.

Afiliação

Sanchez F; Universidad de Costa Rica, Centro de Investigación en Matemática Pura y Aplicada - Escuela de Matemática, San José, Costa Rica. Electronic address: fabio.sanchez@ucr.ac.cr.
Calvo JG; Universidad de Costa Rica, Centro de Investigación en Matemática Pura y Aplicada - Escuela de Matemática, San José, Costa Rica.
Mery G; Pan American Health Organization, World Health Organization, San José 10102, Costa Rica.
García YE; Universidad de Costa Rica, Centro de Investigación en Matemática Pura y Aplicada, San José, Costa Rica; Department of Public Health Sciences, University of California Davis, CA, USA.
Vásquez P; Universidad de Costa Rica, Centro de Investigación en Matemática Pura y Aplicada, San José, Costa Rica.
Barboza LA; Universidad de Costa Rica, Centro de Investigación en Matemática Pura y Aplicada - Escuela de Matemática, San José, Costa Rica.
Pérez MD; Pan American Health Organization, World Health Organization, San José 10102, Costa Rica.
Rivas T; Ministry of Health, San José 10102, Costa Rica.

Epidemics ; 39: 100577, 2022 06.

Article em En | MEDLINE | ID: mdl-35636309

RESUMO

Successful partnerships between researchers, experts, and public health authorities have been critical to navigate the challenges of the Covid-19 pandemic worldwide. In this collaboration, mathematical models have played a decisive role in informing public policy, with findings effectively translated into public health measures that have shaped the pandemic in Costa Rica. As a result of interdisciplinary and cross-institutional collaboration, we constructed a multilayer network model that incorporates a diverse contact structure for each individual. In July 2020, we used this model to test the effect of lifting restrictions on population mobility after a so-called "epidemiological fence" imposed to contain the country's first big wave of cases. Later, in August 2020, we used it to predict the effects of an open and close strategy (the Hammer and Dance). Scenarios constructed in July 2020 showed that lifting restrictions on population mobility after less than three weeks of epidemiological fence would produce a sharp increase in cases. Results from scenarios in August 2020 indicated that the Hammer and Dance strategy would only work with 50% of the population adhering to mobility restrictions. The development, evolution, and applications of a multilayer network model of Covid-19 in Costa Rica has guided decision-makers to anticipate implementing sanitary measures and contributed to gain valuable time to increase hospital capacity.

Assuntos

COVID-19; COVID-19/epidemiologia; Costa Rica/epidemiologia; Política de Saúde; Humanos; Pandemias; Política Pública

Palavras-chave

Computational model; Covid-19; Network model; Non-pharmaceutical interventions; Public health

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Texto completo: 1 Coleções: 01-internacional Base de dados: MEDLINE Assunto principal: COVID-19 Tipo de estudo: Prognostic_studies Limite: Humans País/Região como assunto: America central / Costa rica Idioma: En Revista: Epidemics Ano de publicação: 2022 Tipo de documento: Article País de publicação: Holanda

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