ABSTRACT
OBJECTIVE
Flattening the curve was the most promoted public health strategy worldwide, during the pandemic, to slow down the spread of the SARS-CoV-2 virus, and, consequently, to avoid overloading the healthcare systems. In Brazil, a relative success of public policies was evidenced. However, the association between public policies and the “flatten the curve” objectives remain unclear, as well as the association of different policies to reach this aim. This study aims to verify if the adoption of different public policies was associated with the flattening of the infection and death curves by covid-19 first wave in 2020.
METHODS
Data from the Sistema de Informação da Vigilância Epidemiológica da Gripe (Influenza Epidemiological Surveillance Information System – SIVEP-Gripe) and the Instituto Brasileiro de Geografia e Estatística (Brazilian Institute of Geography and Statistics – IBGE) were used to compute standardized incidence and mortality rates. The Oxford Covid-19 Government Response Tracker (OxCGRT) was used to obtain information about governmental responses related to the mitigation of pandemic effects, and the Human Development Index (HDI) was used as a measure of socioeconomic status. A non-linear least-square method was used to estimate parameters of the five-parameter sigmoidal curve, obtaining the time to reach the peak and the incremental rate of the curves. Additionally, ordinary least-square linear models were used to assess the correlation between the curves and the public policies adopted.
RESULTS
Out of 51 municipalities, 261,326 patients had SARS-CoV-2 infection. Stringency Index was associated with reducing covid-19 incremental incidence and death rates,in addition to delaying the time to reach the peak of both pandemic curves. Considering both parameters, economic support policies did not affect the incidence nor the mortality rate curves.
CONCLUSION
The evidence highlighted the importance and effectiveness of social distancing policies during the first year of the pandemic in Brazil, flattening the curves of mortality and incidence rates. Other policies, such as those focused on economic support, were not effective in flattening the curves but met humanitarian and social outcomes.
Public Policy; Mortality; SARS-CoV-2; COVID-19; Communicable Disease Control
INTRODUCTION
The novel coronavirus (SARS-CoV-2) was identified in December 2019. The virus had a rapid spread 11. Silva J, Ribeiro-Alves M. Social inequalities and the pandemic of COVID-19: the case of Rio de Janeiro. J Epidemiol Community Health. 2021 Oct;75(10):975-9. https://doi.org/10.1136/jech-2020-214724
https://doi.org/10.1136/jech-2020-214724... , with 15% of infections progressing to severe infections, thus requiring hospitalization. Additionally, 5% of cases were critical infections 22. World Health Organization. Coronavirus disease 2019 (Covid-19): situation report 46. Geneva: World Health Organization; 2020 [cited 2022 May 10]. Available from: https://www.who.int/docs/default-source/coronaviruse/situation-reports/20200306-sitrep-46-covid-19.pdf
https://www.who.int/docs/default-source/... , which demanded hospitalization in intensive care medical units (ICU) and use of mechanical ventilation.
Due to the high demand for healthcare services, the most promoted public health worldwide strategy during the pandemic was to “flatten the curve.” Flattening the curve means slowing the spread of the epidemic so that the peak number of people requiring care at a time is reduced, and the time to reach this peak is delayed. Mandatory public policies were implemented to influence the population’s mobility pattern and contributed to increasing adherence to social distancing.
In Brazil—a dramatic case of failure in mitigating the consequences of the pandemic—public policies did not have centralized coordination between levels of government, causing heterogeneity of time and intensity in the promotion of public policies aimed at flattening the curves. Barberia 33. Barberia L, coord. R Covid-19: políticas públicas e as respostas da sociedade: informação de qualidade para aperfeiçoar as políticas públicas e salvar vidas. abr. 2020 [cited 2020 Mar 20]. Available from: https://redepesquisasolidaria.org/nao-categorizado/falta-de-coordenacao-entre-o-governo-federal-e-estados-enfraquece-a-politica-de-distanciamento-social-a-flexibilizacao-sem-criterios-pode-agravar-a-pandemia/
https://redepesquisasolidaria.org/nao-ca... , using Oxford Covid-19 Government Response Tracker (OxCGRT) 44. University of Oxford. Blavatnik School of Government. Covid-19 Government Response Tracker: research project. Oxford: University of Oxfore; 2020 [cited 2020 Mar 20]. Available from: https://www.bsg.ox.ac.uk/research/research-projects/covid-19-government-response-tracker
https://www.bsg.ox.ac.uk/research/resear... , verified that sub-national governments, especially state governments, played an important role in implementing social distancing measures to halt the spread of the virus when compared to the federal government. The negative effect of the federal government, headed by a president who minimized the disease’s consequences and disregarded the importance of social distancing, was also extensively documented 55. Cabral S, Ito N, Pongeluppe L. The disastrous effects of leaders in denial: evidence from the COVID-19 crisis in Brazil. Decis-Mak Public Policy Soc Good eJournal. 2021. https://doi.org/10.2139/ssrn.3836147
https://doi.org/10.2139/ssrn.3836147... , 66. Calvo E, Ventura T. Will I get COVID-19? Partisanship, social media frames, and perceptions of health risk in Brazil. Lat Am Polit Soc. 2021;63(1):1-26. https://doi.org/10.1017/lap.2020.30
https://doi.org/10.1017/lap.2020.30... . However, evidence have shown that mandatory policies on social distancing increased the levels of adherence 77. Moraes RF. Covid-19 e medidas legais de distanciamento social: descentralização das políticas, relação com o número de óbitos e análise do período de 27 de abril a 10 de maio de 2020. Brasília, DF: Instituto de Pesquisa e Economia Aplicada, 2020 [cited 2020 June 20]. (Nota Técnica, nº 10). Available from: https://www.ipea.gov.br/portal/images/stories/PDFs/nota_tecnica/200513_nt_dinte_n19_covid_19.pdf
https://www.ipea.gov.br/portal/images/st... , 88. Jorge DC, Rodrigues MS, Silva MS, Cardim LL, Silva NB, Silveira IH, et al. Assessing the nationwide impact of COVID-19 mitigation policies on the transmission rate of SARS-CoV-2 in Brazil. Epidemics. 2021 Jun;35:100465. https://doi.org/10.1016/j.epidem.2021.100465
https://doi.org/10.1016/j.epidem.2021.10... , particularly when a more complete and rigorous set of policies was adopted 99. Barberia LG, Cantarelli LG, Oliveira ML, Moreira ND, Rosa IS. The effect of state-level social distancing policy stringency on mobility in the states of Brazil. Rev Adm Pública. 2021;55(1):27-49. https://doi.org/10.1590/0034-761220200549
https://doi.org/10.1590/0034-76122020054... . Furthermore, the population adherence to social distancing was associated with a decrease in the mortality rate 1010. Rocha R, Atun R, Massuda A, Rache B, Spinola P, Nunes L, et al. Effect of socioeconomic inequalities and vulnerabilities on health-system preparedness and response to COVID-19 in Brazil: a comprehensive analysis. Lancet Glob Health. 2021 Jun;9(6):e782-92. https://doi.org/10.1016/S2214-109X (21)00081-4
https://doi.org/10.1016/S2214-109X (21)0... , 1111. Razafindrakoto M, Roubaud F, Saboia J, Castilho MR, Pero V. Municípios in the time of Covid-19 in Brazil: socioeconomic vulnerabilities, transmission factors and public policies. Eur J Dev Res. 2022;34(6):2730-58. https://doi.org/10.1057/s41287-021-00487-w
https://doi.org/10.1057/s41287-021-00487... . Despite the evidence on the relative success of public policies 1212. Ferreira CP, Marcondes D, Melo MP, Oliva SM, Peixoto CM, Peixoto PS. A snapshot of a pandemic: the interplay between social isolation and COVID-19 dynamics in Brazil. Patterns (N Y). 2021 Oct;2(10):100349. https://doi.org/10.1016/j.patter.2021.100349
https://doi.org/10.1016/j.patter.2021.10... , other aspects demand clarification, such as (i) the association of public policies with the incidence and mortality rate of hospitalization by SARS-CoV-2 infections; (ii) the association of public policies with reducing the peak incidence of people requiring care and delaying the time to reach this peak (“flatten the curve” goal); and, (iii) the success of different policies to reach these goals.
This study aims to verify if the adoption of different public policies, such as containment and closure, economic support, health services, and testing, were associated with the flattening of the infection and death curves by covid-19 first wave, from March to December 2020, in the Brazilian hospitals.
METHODS
Data
Health Data
The information on the number of SARS-CoV-2 infections, deaths, the pandemic time (date of first symptoms for the first recorded infection by the municipality of residence), sex, and age were extracted from the Sistema de Informação da Vigilância Epidemiológica da Gripe (Influenza Epidemiological Surveillance Information System – SIVEP-Gripe), as of January 11, 2021 (downloaded from https://opendatasus.saude.gov.br/dataset/srag-2020). Then, patients were only selected in cases with a confirmed diagnosis of covid-19 (laboratory, clinical, clinical-epidemiological, or imaging criteria) notified from February 20 (the first confirmed infection of covid-19 in Brazilian territory) to December 31, 2020. Patients with ongoing clinical evolution on December 31, 2020, were excluded.
Public Policies
Daily data from The Oxford covid-19 Government Response Tracker (OxCGRT) on several different common governments’ policy responses 44. University of Oxford. Blavatnik School of Government. Covid-19 Government Response Tracker: research project. Oxford: University of Oxfore; 2020 [cited 2020 Mar 20]. Available from: https://www.bsg.ox.ac.uk/research/research-projects/covid-19-government-response-tracker
https://www.bsg.ox.ac.uk/research/resear... were collected from 55 Brazilian municipalities from January 1, 2020, to December 31, 2020 (downloaded from https://github.com/OxCGRT/Brazil-covid-policy). Indexes that describe the overall policy environment that applies to residents of the city were used, including the policies set by either the national or state governments. Among them, the Stringency Index was used, which includes containment and closure policies, such as the closings of schools, universities, workplaces, and public transport (including intercity transport); canceling of public events; limiting of private gatherings; directives to “shelter-in-place” and confine at home; restricting of movement between cities, regions, and countries; and the promoting of public information campaigns. We also used the Economic Support Index, which contains income support and debt/contract relief policies to households. Containment and Health Index, that represents all policies included in the Stringency Index augmented by health policies, such as testing policy, contact tracing, facial coverings, vaccination policy, and protection of older adults. Finally, the Government Response Index, that combines the Containment and Health Index and the Economic Support Index. All these daily index data were aggregated into the corresponding time-span period for each municipality.
Adjustment Variables
To control socioeconomic discrepancies between municipalities, the Human Development Index (HDI) was included as a measure of socioeconomic status. The aggregate HDI, as well as its three dimensions, is represented by a number ranging from 0 to 1; the closer to 1, the greater the human development of the population. To control for environmental causes of airborne transmission among people, the Crowding Rate (percentage of the population living in a house with more than two people per room in 2010) and the Demographic Density Rate (number of inhabitants per km 22. World Health Organization. Coronavirus disease 2019 (Covid-19): situation report 46. Geneva: World Health Organization; 2020 [cited 2022 May 10]. Available from: https://www.who.int/docs/default-source/coronaviruse/situation-reports/20200306-sitrep-46-covid-19.pdf
https://www.who.int/docs/default-source/... in 2010) were included. To control the discrepancies in healthcare assessment between municipalities, the ICU Hospital Beds Rate (number of hospital beds in ICU per million inhabitants in 2015) and the Physician Rate (number of physicians per thousand inhabitants in 2015) were included.
Statistical Analysis
Standardized incidence and mortality rates (per 100,000 people) were computed, calculated as the number of infections and the number of deaths related to covid-19 by the total population exposed to the risk, respectively. Rates were standardized by age using the 2010 Brazilian Population Pyramid (age and sex pyramid) as a reference. The standardized incidence rate (SIR) included three distinct time-spans to consider the exact day of infection, that is, 5, 9, or 13 days before the date of registration at the SIVEP-Gripe/MoH. The curves were estimated considering epidemiological weeks as a time reference unit. To compare different curves of municipalities, the initial time point was aligned from the first case of SARS-CoV-2 infection/death in each municipality. Several curves observed presented more than one peak. To delimitate the time-span of the curves to include the main/highest peak, the observed curve was detached into distinct normal distribution using model-based clustering on parameterized finite Gaussian mixture models 1515. Fraley C, Raftery AE, Murphy TB, Scrucca L. mclust Version 4 for R: Normal mixture modeling for model-based clustering, classification, and density estimation. Seattle: Department of Statistics, University of Washington; 2012 [cited year Month day]. (Technical Report nº 597). Available from: https://stat.uw.edu/sites/default/files/files/reports/2012/tr597.pdf
https://stat.uw.edu/sites/default/files/... . The normal distribution with the highest peak was selected and the observed curve time-span was delimited based on the amplitude of that distribution. Figure 1 shows the absolute and cumulative curves and the two parameters computed from them. The flatter the curve, the longer it takes and the slower the incremental rate until its peak. Both parameters were computed from the estimated cumulative curve using a non-linear least-square method for a five-parameter sigmoidal curve adjustment 1616. Spiess AN, Feig C, Ritz C. Highly accurate sigmoidal fitting of real-time PCR data by introducing a parameter for asymmetry. BMC Bioinformatics. 2008 Apr;9(1):221. https://doi.org/10.1186/1471-2105-9-221
https://doi.org/10.1186/1471-2105-9-221... .
Illustration of curves generated by hypothetical rate to estimate the parameters, time to the peak and incremental rate, using a 5-parameters curve model.
To assess the flattening of curves, measured by these two parameters (incremental rate and the time to reach the peak) in each municipality, and the public policies, multiple ordinary least-square linear regressions was used. The time to reach the peak and the incremental rate were outcomes, and Stringency Index, Government Response Index, Containment and Health Index, and Economic Support Index were dependent variables representing public policies. The models were all adjusted for HDI, Crowding Rate, Demographic Density Rate, ICU Hospital Beds Rate, and Physician Rate. All statistical analyses were performed in R statistical software v.4.0.5, utilizing the ‘mclust’ library to separate the curve into distinct normal distribution and the ‘drc’ library to estimate incidence and mortality rate curve parameters.
RESULTS
Population
From the 1,136,681 records present in the severe acute respiratory syndrome database (SIVEP-Gripe/MoH) as of January 11, 2021, we excluded 109 patients due to lacking geographic information (country, state, city) of record origin; 2,681 due to informed age in negative number; and 202 due to informed age older than 105 years. Of the remaining 1,133,689 records, a total of 606,554 had SARS-CoV-2 infection confirmed by laboratory, clinical, clinical-epidemiological, or clinical imaging (lung X-ray/computed tomography) criteria with clinical evolution until covid-19-related death from February 20, 2020 (first confirmed infection of covid-19 in Brazilian territory) to December 31, 2020. Next, the number of deaths and the pandemic time were grouped by the municipality of residence of each registered patient. In total, 51 municipalities, the state capital, and the second city with the largest population, were included in our analysis, which means an average of two municipalities for each Brazilian state: Acre (Rio Branco, Cruzeiro do Sul); Alagoas (Maceió, Arapiraca); Amapá (Macapá); Amazonas (Manaus, Parintins); Bahia (Salvador, Feria de Santana); Ceará (Fortaleza, Caucaia); Distrito Federal (Brasília); Espírito Santo (Vitória, Vila Velha); Goiás (Goiânia, Aparecida de Goiânia); Maranhão (São Luís, Imperatriz); Mato Grosso (Cuiabá, Rondonópolis); Mato Grosso do Sul (Campo Grande, Dourados); Minas Gerais (Belo Horizonte, Uberlândia); Pará (Belém, Ananindeua); Paraíba (João Pessoa, Campina Grande); Paraná (Curitiba, Londrina); Pernambuco (Recife, Jaboatão dos Guararapes); Piauí (Teresina, Parnaíba); Rio de Janeiro (Rio de Janeiro, São Gonçalo); Rio Grande do Norte (Natal, Mossoró); Rio Grande do Sul (Porto Alegre, Caxias do Sul); Rondônia (Porto Velho, Ji-Paraná); Roraima (Boa Vista); Santa Catarina (Florianópolis, Joinville); São Paulo (São Paulo, Guarulhos); Sergipe (Aracaju, Lagarto); Tocantins (Palmas, Araguaína). Parameters of mortality rate curve could not be estimated for Rondonópolis and Parnaíba. These 51 municipalities, accounting for 28.32% of the Brazilian population, presented 261,326 records of covid-19 confirmed infection. Out of them, 55.4% are men, 34.1% declared themselves as Mixed-raced, with median age of 61 (interquartile range: 47-74) years old, 47.9% were from the Southeast region, followed by 22.2% from the Northeast region, 88% were living in the state capital, and 87.1% were living in urban areas.
Incidence and Mortality Rate Curves and Parameter Estimation
The incidence and mortality rate curves indicated different patterns in the number of SARS-CoV-2 infections and covid-19-related deaths registered on SIVEP-Gripe/MoH among the 51 municipalities. Some municipalities presented a faster growth of incidence rate curve, with a high peak, followed by the mortality rate curve, indicating a fast spread of covid-19 and a high pressure on the healthcare system. On the other hand, some municipalities presented a slower incremental growth of incidence rate curve, with delayed time to reach the peak of both incidence and mortality rate curves, suggesting better control of SARS-CoV-2 infections with consequent lower mortality rates. Moreover, some municipalities presented more than one peak of infections and deaths, characterizing two different incremental rates of covid-19 curves, possibly related to the reopening process of each municipality. Figure 2 displays representative patterns (3 out of 51 municipalities) of estimated incidence and mortality rate curves (absolute and cumulative), Manaus (high incidence and mortality rates and fastened growth), Campo Grande (flatten curves, with two incremental rates well-characterized), and Florianópolis (very flatten incidence and mortality curves, with higher time to reach the peak of the curves, and two incremental rates well-characterized). These different patterns of cumulative incidence and mortality rates clearly illustrate the heterogenicity of the Brazilian covid-19 scenario in 2020. We highlight that even more diverse patterns could be observed if the data included municipalities with lower population density since they represent different realities in terms of healthcare resources and mobility rates when compared to the most densely populated cities of Brazil.
Absolute and cumulate curves of incidence and mortality rates in three municipalities by epidemiological week. Brazil, 2020.
The delimitation of the time-span curve to these same municipalities (i.e., Manaus, Campo Grande, and Florianópolis) is displayed in Figure 3 (A, B, and C). The first boundary corresponds to the first week of infection notification and the last one to the end of the highest peak of the curve. Figure 3 (D, E, and F) presents the cumulative incidence curves observed and estimated by the model for these same municipalities. The “window of linearity” of the curves is represented by the vertical lines, and the incremental rate of each curve was estimated by the angle formed by the inclined line and the x-axis. The time-span and incremental rate were determined for all the 51 municipalities evaluated.
Observed incidence rate and the delimitation of time-span curve in three municipalities: Manaus (A), Florianópolis (B), and Campo Grande (C). Brazil, 2020.
Effect of Public Policies on Incidence and Mortality Rate Curves Parameters
Table 1 presents a descriptive analysis of adjustment variables, such as socioeconomic status indexes, environmental causes of airborne transmission, healthcare assessment, and interventions adopted, i.e., public policies indexes, by the lowest (1 st quartile) and highest (4 th quartile) incidence (SIR) and mortality rate (SMR) of hospitalization by covid-19 curves for both incremental rate and time to reach the peak. These results highlight the distributions of these adjustment and intervention variables in the municipalities with low and high incremental growth rates and time to reach the peak of incidence and mortality rate of hospitalization due to covid-19. The municipalities with lower incremental rates of incidence and mortality presented higher socioeconomic statuses, i.e., HDI indexes, lower Crowding Rates, higher Stringencies, Government Responses, Containment and Health indexes, and higher ICU Hospital Beds and Physician Rates. Higher Economic Support Indexes were observed among the municipalities with a lower incremental rate of the mortality curves, but not with a lower incremental rate of the incidence curve.
In the second part of Table 1 , which refers to the time to reach the peak of incidence and mortality rate curves, we observed that 25% of municipalities with the lowest time to reach the peak presented, in general, lower socioeconomic statuses, Stringency Indexes, Government Response Indexes, Containment and Health Indexes, ICU Hospital Beds and Physician Rates, and finally, higher Crowding Rates.
The robustness analysis for the incidence rate was evaluated as a function of the uncertainty of the day of infection in relation to the day of the registration of the first symptoms of infection in SIVEP-Gripe/MoH (data not shown).
Table 2 presents the correlations between interventions, i.e., public policies, and incremental rate and time to reach the peak outcomes for the incidence and mortality rate of hospitalization by covid-19 curves, evaluated by multiple linear regression models. Considering the incidence curves, we observed a negative correlation between the Stringency Index and the incremental rate (p-value = 0.01). It means that orders to stay at home and restrictions on movement between cities, states, and countries were correlated with lower growth rates of covid-19 infections, but not with lower growth rates of covid-19-related deaths. The other public policies evaluated, i.e., Government Response Index, Containment and Health Index, and Economic Support Index, were not correlated with the incremental rate for neither incidence nor mortality rate curves. In terms of the outcome time to reach the peak of incidence curves, we identified a positive correlation with all public policies (p-values < 0.01), except for the Economic Support Index. The same results were observed for the mortality rate curves, which means that restricting people’s behavior with containment and closure policies was associated with a delay in achieving the peak of incidence and mortality rate of hospitalization by covid-19 curves. Controversially, increases in economic support were not correlated with the incremental rate of neither incidence nor mortality rate curves but presented a tendency of negative correlation with the time to reach the peak of the incidence curves (p-value = 0.06).
DISCUSSION
We investigated whether the adoption of different public policies was associated with the flattening of the covid-19-related incidence and mortality rate curves of hospitalization in Brazil.
Our evidence brings novelties and confirms results already reported. The novelty is the ineffectiveness of economic support policy in terms of “flatten the curve” strategy. Although fundamental for humanitarian, social, and economic reasons, the economic support policies seem to not have contributed to the population’s social distancing adherence since it did not affect the incidence and mortality rate of hospitalizations by covid-19 curves. Part of this unexpected result may derive from the delay in the implementation of these programs in Brazil, as well as their short duration 1717. Vilela PR. Governo prorroga auxílio emergencial por mais três meses. Agência Brasil. 2021 Jul 5 [cited 2022 Oct 17]. Available from: https://agenciabrasil.ebc.com.br/politica/noticia/2021-07/governo-prorroga-auxilio-emergencial-por-mais-tres-meses
https://agenciabrasil.ebc.com.br/politic... . Additionally, as the coefficient of the Containment and Health Index is, in general, higher than the Stringency Index, we can infer that health policies were associated with reducing the covid-19 incremental rate of incidence and deaths since the former included testing policy, facial coverings, and protection of older adults. On the other hand, our results concerning the social distancing policies (i.e., the Stringency Index) confirmed previous studies 33. Barberia L, coord. R Covid-19: políticas públicas e as respostas da sociedade: informação de qualidade para aperfeiçoar as políticas públicas e salvar vidas. abr. 2020 [cited 2020 Mar 20]. Available from: https://redepesquisasolidaria.org/nao-categorizado/falta-de-coordenacao-entre-o-governo-federal-e-estados-enfraquece-a-politica-de-distanciamento-social-a-flexibilizacao-sem-criterios-pode-agravar-a-pandemia/
https://redepesquisasolidaria.org/nao-ca... , 99. Barberia LG, Cantarelli LG, Oliveira ML, Moreira ND, Rosa IS. The effect of state-level social distancing policy stringency on mobility in the states of Brazil. Rev Adm Pública. 2021;55(1):27-49. https://doi.org/10.1590/0034-761220200549
https://doi.org/10.1590/0034-76122020054... . Using the perspective of the “flatten the curve” strategy, the Stringency Index was very effective to delay the time to reach the peaks of incidence and mortality rates of hospitalization by covid-19 curves, and reduce the incremental rate of incidence curves. On the other hand, the absence of impact of the Stringency Index on the incremental rate of mortality curves suggests that additional factors, including healthcare assessment and the population’s health condition, could be more important in terms of mortality compared to social distancing policies. Indeed, in terms of the mortality rate of hospitalization by covid-19, we observed higher incremental rates and slower times to reach the peak curves among municipalities with higher Crowding Rates and lower Physician Rates and ICU Hospital Beds Rates, which are indicators of social inequalities and limited access to healthcare resources. Precarious housing, or crowding households, was already reported as an important factor associated with SARS-CoV-2 transmission 1818. Hallal PC, Hartwig FP, Horta BL, Silveira MF, Struchiner CJ, Vidaletti LP, et al. SARS-CoV-2 antibody prevalence in Brazil: results from two successive nationwide serological household surveys. Lancet Glob Health. 2020 Nov;8(11):e1390-8. https://doi.org/10.1016/S2214-109X (20)30387-9
https://doi.org/10.1016/S2214-109X (20)3... , 1919. Villela DA. Household crowding hampers mitigating the transmission of SARS-CoV-2. Rev Soc Bras Med Trop. 2021 Feb;54:e08212020. https://doi.org/10.1590/0037-8682-0821-2020
https://doi.org/10.1590/0037-8682-0821-2... and it is characteristic of socioeconomically less privileged populations, which were more affected by the severity of the disease 11. Silva J, Ribeiro-Alves M. Social inequalities and the pandemic of COVID-19: the case of Rio de Janeiro. J Epidemiol Community Health. 2021 Oct;75(10):975-9. https://doi.org/10.1136/jech-2020-214724
https://doi.org/10.1136/jech-2020-214724... , 2020. Cardoso EH, Silva MS, Felix Junior FEA, Carvalho SV, Carvalho AC, Vijaykumar N, et al. Characterizing the impact of social inequality on COVID-19 propagation in developing countries. IEEE Access. 2020 Sep;8:172563-80. https://doi.org/10.1109/ACCESS.2020.3024910
https://doi.org/10.1109/ACCESS.2020.3024... , 2121. Wachtler B, Michalski N, Nowossadeck E, Diercke M, Wahrendorf M, Santos-Hövener C, et al. Socioeconomic inequalities and COVID-19: a review of the current international literature. J Health Monit. 2020;5 Sup 7:3-17. https://doi.org/10.25646/7059
https://doi.org/10.25646/7059... .
Among the limitations of this study, the first is that an ecological study is not the most appropriate design to verify the impact of public policies on the population since the aggregation of data may result in the loss or concealment of certain socioeconomic aspects that could be relevant to evaluating the actual impact. Furthermore, this study did not allow us to analyze causal-type relationships between public policies and the flattering of the covid-19 incidence and mortality rate curves; it only estimated the possible effects based on the correlation, even if controlled for possible confounding factors. In addition, an overlap was observed between the OxCGRT public policy indices by design. Another limitation, not from the study per se , but from the registry of SARS-CoV-2 infections in Brazil, was the low testing throughout 2020, especially at the beginning of the pandemic, which may have underestimated covid-19 related incidence and, even, mortality rates. Moreover, the selected municipalities do not represent the entire Brazilian reality since we only evaluated capitals and greater municipalities, excluding municipalities with low population density. In addition, we disregarded the municipalities of Rorainópolis and Santarém due to lacking information on the parameters of the curves and public policies. Finally, we were limited by the absence of population census information more recent than 2010, which forced us to use outdated measures of socioeconomic (HDI index) information, among others.
Our research evaluated which public policies were associated with the flattening of the covid-19 curves of hospitalization in Brazil. Our results indicated that the stringency of containment and closure policies decreased the incremental rate of the incidence curve, and health policies (the Stringency Index, the Containment and Health Index, and the Government Response Index) delayed the time to reach the peak of incidence and mortality rate curves. More research should be conducted to address the causality effects of specific policies on the incidence and mortality rate of hospitalization by covid-19 infections.
REFERENCES
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- Funding: Inova-Fiocruz Program [Grants: VPPCB-005-FIO-20-2-45 and VPPCB-005-FIO-20-2-61, 2020].
Publication Dates
- Publication in this collection
03 Nov 2023 - Date of issue
2023
History
- Received
05 Sept 2022 - Accepted
19 Dec 2022