Entomological and epidemiological aspects of dengue epidemics in Fortaleza, Ceará, Brazil, 2001-2012**This study is based on Rhaquel de Morais Alves Barbosa’s thesis entitled 'Clinical, entomological and epidemiological aspects of dengue epidemics in Fortaleza, Ceará, Brazil, 2001-2012', defended to the Post-graduate Program in Public Health of the Federal University of Ceará, in December 2014. This study was funded by Fundação Cearense de Apoio ao Desenvolvimento Científico e Tecnológico (FUNCAP): Public Notice 03/2012-PPSUS-MS/CNPq/FUNCAP.

Rhaquel de Morais Alves Barbosa Oliveira Fernanda Montenegro de Carvalho Araújo Luciano Pamplona de Góes Cavalcanti About the authors

Abstract

Objective:

to characterize the entomological and epidemiological aspects of dengue epidemics occurred in Fortaleza, Ceará, Brazil, from 2001 to 2012.

Methods:

descriptive study with data from the Information System for Notifiable Diseases (Sinan), Information System of Hospitalizations due to Yellow Fever and Dengue (2001-2009), National Program for Dengue Control (2010-2012), and Rapid Survey of Aedes aegypti Infestation Index, referring to the years in which the incidence of dengue was above 75%.

Results:

from 2001 to 2012, 194,446 cases of suspected dengue were notified; the epidemic years were 2001, 2006, 2008, 2011 and 2012; there was a progressive increase in the incidence of the disease (587.0/100 thousand inhabitants in 2001 and 1,561.1/100 inhabitants in 2012); there was co-circulation of up to three serotypes and high vector infestation, especially in water tanks.

Conclusion:

after a long period of virus circulation in Fortaleza, dengue remains as an important health issue, with severe cases and high fatality rate.

Keywords:
Dengue; Epidemiological Surveillance; Aedes; Epidemiology, Descriptive

Introduction

Dengue is still a major public health issue in Brazil, even after the recent introduction and dissemination of the Zika and chikungunya viruses.11. Pan American Health Organization. World Health Organization. Neglected, tropical and vector borne disease - dengue [Internet]. 2017 [citado 2017 out 30]. Disponível em: Disponível em: http://www.paho.org/hq/index.php?option=com_topics&view=article&id=1&Itemid=40734 ; Acessado em 14/10/2016
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,22. Bhatt S, Gething PW, Brady OL, Messina JP, Farlow AW, Moyes CL, et al. The global distribution and burden of dengue. Nature. 2013 Apr;496(7446):504-7. The disease poses a serious epidemic threat, striking Brazil as a whole, especially the Northeast region.33. Gonçalves Neto VS, Rebêlo JMM. Aspectos epidemiológicos do dengue no Município de São Luís, Maranhão, Brasil, 1997-2002. Cad Saúde Pública. 2004 set-out;20(5):1424-31.

4. Monteiro ESC, Coelho ME, Cunha IS, Cavalcante MAS, Carvalho FAA. Aspectos epidemiológicos e vetoriais da dengue na cidade de Teresina, Piauí - Brasil, 2002 a 2006. Epidemiol Serv Saúde. 2009 dez;18(4):365-74.
-55. Barbosa IR, Araújo LF, Carlota FC, Araújo RS, Maciel IJ. Epidemiology of dengue fever in the State of Rio Grande do Norte, Brazil, 2000 to 2009. Epidemiol Serv Saúde. 2012 jan-mar;21(1):149-57.

The repercussion of these epidemics is evident in the assistance offered to patients and in the epidemiological surveillance, often exposing their weaknesses and causing impacts of socioeconomic, political, and psychological natures.66. Suaya JA, Shepard DS, Siqueira JB, Martelli CT, Lum LC, Tan LH, et al. Cost of dengue cases in eight countries in the Americas and Asia: a prospective study. Am J Trop Med Hyg, 2009 May;80(5):846-55. Moreover, dengue epidemics have a higher cost due to hospitalization, medical assistance, and vector prevention and control measures, resulting in a significant budgetary burden to health care services. From 2000 to 2007, Brazil was responsible for around 41% of the expenditure on dengue in the Americas.77. Shepard DS, Coudeville L, Halasa YA, Zambrano B, Dayan GH. Economic impact of dengue illness in the Americas. Am J Trop Med Hyg. 2011 Feb;84(2):200-7.,88. Shepard DS, Undurraga EA, Halasa YA. Economic and disease burden of dengue in Southeast Asia. PLoS Negl Trop Dis. 2013 Feb;7(2):e2055.

Despite the vector control actions adopted by health care services, the state of Ceará, in the Northeast region, has recorded major epidemics since the 1990s.99. Cavalcanti LPG, Coelho ICB, Vilar DCLF, Holanda SGS, Escóssia KNF, Souza-Santos R. Clinical and epidemiological characterization of dengue hemorrhagic fever cases in northeastern, Brazil. Rev Soc Bras Med Trop. 2010 Jul-Aug;43(4):355-8.

10. Lima EP, Goulart MOF, Albuquerque MR, Victor FM, Pinto NB. Time series analysis of incidence of dengue and Aedes aegypti in Ceará. Rev Bras Promoc Saúde. 2013 Jul-Sep;26(3):340-48.
-1111. Cavalcanti LPG, Barreto FKA, Oliveira RMAB, Canuto IFP, Lima AAB, Lima JWO, et al. Trinta anos de dengue no Ceará: história, contribuições para ciência e desafios no cenário atual com tripla circulação de arbovírus. J Health Biol Sci. 2018 Jan-Mar; 6(1):65-82. The municipality of Fortaleza, capital of Ceará, gathers a large portion of cases in the state, recording cases of dengue fever since 1986, major epidemics, and high levels of fatality.1010. Lima EP, Goulart MOF, Albuquerque MR, Victor FM, Pinto NB. Time series analysis of incidence of dengue and Aedes aegypti in Ceará. Rev Bras Promoc Saúde. 2013 Jul-Sep;26(3):340-48.,1111. Cavalcanti LPG, Barreto FKA, Oliveira RMAB, Canuto IFP, Lima AAB, Lima JWO, et al. Trinta anos de dengue no Ceará: história, contribuições para ciência e desafios no cenário atual com tripla circulação de arbovírus. J Health Biol Sci. 2018 Jan-Mar; 6(1):65-82.

In order to avoid and reduce the impact of such epidemics, it is important to understand their specific characteristics in each region. This way, for a better overview of the mechanisms involved in dengue epidemics in large urban centers, the aim of this study was to characterize entomological and epidemiological aspects of dengue epidemics that occurred in Fortaleza, Ceará, Brazil, in the period from 2001 to 2012.

Methods

All the years when dengue incidence was above 75% between 2001 and 2012 were analyzed in this descriptive study.

In 2012, Fortaleza was the 5th most populous state capital in Brazil, with approximately 2,591,114 inhabitants residing in 119 neighborhoods and distributed into six administrative regions called Regional District Offices (SER).1212. Ministério da Saúde (BR). Datasus. População residente - Brasil [Internet]. 2017 [citado 2017 ago 25]. Disponível em: Disponível em: http://tabnet.datasus.gov.br/cgi/deftohtm.exe?novapop/cnv/popbr.def
http://tabnet.datasus.gov.br/cgi/deftoht...

The study includes all confirmed cases of the disease, between January 2001 and December 2012, in individuals residing in Fortaleza. Cases were considered confirmed by laboratory and clinical-epidemiological criteria. For that, we used the definition of case adopted by the Brazilian Ministry of Health.1313. Ministério da Saúde (BR). Secretaria de Vigilância em Saúde. Guia de vigilância em saúde [Internet]. Brasília: Ministério da Saúde; 2014 [citado 2017 out 30]. 812 p. Disponível em: Disponível em: https://pbh.gov.br .
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We considered cases of dengue those in which an individual a) resides in areas with incidence of the disease, or b) has been to areas with occurrence of transmission (or of Aedes aegypti) in the past 14 days, and who the presence fever from two to seven days, and two or more of the following symptoms: nausea, vomiting, rash, myalgia, arthralgia, headache, retro-orbital pain, petechiae, positive result in the tourniquet test, leukopenia.

The epidemiological data were obtained from the Information System for Notifiable Diseases (Sinan) in its three versions: Sinan-Windows (2000-2006), Sinan-Net (2007-2010), and Sinan-Online (2011-2012).1414. Ministério da Saúde (BR). Conselho Nacional de Secretário de Saúde. Vigilância em Saúde - parte 1 [Internet]. Brasília: CONASS; 2011 [citado 2017 out 30] (Coleção Para Entender a Gestão do SUS 2011). 320 p. Disponível em: Disponível em: http://www.conass.org.br/bibliotecav3/pdfs/colecao2011/livro_5.pdf
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For the calculation of dengue incidence rate, we considered the number of cases as the numerator, while the denominator was the population estimated by the Brazilian Institute of Geography and Statistics (IBGE) multiplied by 100,000. The information was available in the Department of the Brazilian National Health System (Datasus). The incidence rate was also calculated in relation to sex and age group. The number of hospitalizations was obtained from the National Hospital Information System (SIH/SUS).

The analyzed variables had the following characteristics: sociodemographic and epidemiological; laboratory; hospitalizations; and entomological.

The sociodemographic variables corresponded to age group (in years: <9; 10 to 19; 20 to 49; 50 to 79; ≥80) and sex (male; female).

The epidemiological characteristics considered for the study were:

  1. - final classification used by the Ministry of Health until 2013 (classical dengue fever, dengue with complications, dengue hemorrhagic fever [DHF], dismissed cases, cases under investigation, unknown);

  2. - confirmation criteria (laboratory, clinic-epidemiological, under investigation, dismissed);

  3. - evolution (cure, death caused by dengue, death by other causes, unknown);

  4. - hospitalization period (in days: <1; 1 to 5; 6 to 14; 15 to 21; 22 to 28; ≥29); and

  5. - month and year when the symptoms started

The entomological data were extracted from spreadsheets of building infestation rate (BIR), collected by the Municipal Health Department of Fortaleza, from the Yellow Fever and Dengue Information System (SisFAD) until 2009; from the National Program for Dengue Control System (SisPNCD) since 2010; and from the Rapid Survey of Aedes aegypti Infestation Index (LIRAa).1515. Ministério da Saúde (BR). Secretaria de Vigilância em Saúde. Diretoria técnica de Gestão. Diagnóstico rápido nos municípios para vigilância entomológica do Aedes Aegypti no Brasil - LIRAa: metodologia para avaliação dos índices de Breteau e Predial [Internet]. Brasília: Ministério da Saúde; 2005 [citado 2017 out 30]. 60 p. Disponível em: Disponível em: http://bvsms.saude.gov.br/bvs/publicacoes/diagnostico_rapido_municipios_aedes.pdf
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According to the Ministry of Health, deposits of water infected by the Aedes aegypti mosquito must be categorized into five major groups: A, B, C, D, and E.1515. Ministério da Saúde (BR). Secretaria de Vigilância em Saúde. Diretoria técnica de Gestão. Diagnóstico rápido nos municípios para vigilância entomológica do Aedes Aegypti no Brasil - LIRAa: metodologia para avaliação dos índices de Breteau e Predial [Internet]. Brasília: Ministério da Saúde; 2005 [citado 2017 out 30]. 60 p. Disponível em: Disponível em: http://bvsms.saude.gov.br/bvs/publicacoes/diagnostico_rapido_municipios_aedes.pdf
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Containers used to store water are in group A. Given its importance, group A was further divided into categories A1 (water tanks) and A2 (containers to store water at ground level). Deposits considered mobile, such as pots, bottles, fridge defrosting containers, drinking fountains in general, small ornamental fountains, etc., are in group B. Deposits considered fixed, such as tanks in auto repair shops, rain gutters, flat roofs, toilets in disuse, untreated swimming pools, pots left in cemeteries, etc., are in group C. Deposits subject to mechanical removal are in group D; once again, given the relevance of such deposits as potential breeding sites, the group was further divided into D1 (tires) and D2 (garbage). Finally, natural containers such as plant axils, bromeliad flowers, holes in trees, rock formations, etc., are in group E.1515. Ministério da Saúde (BR). Secretaria de Vigilância em Saúde. Diretoria técnica de Gestão. Diagnóstico rápido nos municípios para vigilância entomológica do Aedes Aegypti no Brasil - LIRAa: metodologia para avaliação dos índices de Breteau e Predial [Internet]. Brasília: Ministério da Saúde; 2005 [citado 2017 out 30]. 60 p. Disponível em: Disponível em: http://bvsms.saude.gov.br/bvs/publicacoes/diagnostico_rapido_municipios_aedes.pdf
http://bvsms.saude.gov.br/bvs/publicacoe...
The percentage of deposits infected by the Aedes aegypti mosquito is represented according to data from each Regional District Office.

Dengue fatality rate was calculated dividing the number of deaths caused by dengue hemorrhagic fever (DHF) by the number of confirmed cases of DHF, multiplied by 100.

The databases were analyzed after eliminating duplicate cases for each year of epidemics. Afterwards, the information from the three versions of Sinan were gathered in a single database for analysis. In the calculation of descriptive statistics, we used the software EpilInfo® v.6.0 and Tabwin 32.

For the conduction of the study, we followed the ethical principles as recommended by the Resolution No. 466 of the National Health Council (CNS), dated December 12th, 2012.1616. Brasil. Ministério da Saúde. Conselho Nacional de Saúde. Comissão Nacional de Ética em Pesquisa. Resolução nº 466, de 12 de dezembro de 2012. Dispõe sobre as diretrizes e normas regulamentadoras de pesquisas envolvendo seres humanos. Diário Oficial da República Federativa do Brasil, Brasília (DF), 2013 jun 13; Seção 1:59. Due to the secondary nature of the data collected, where no cases were identified, the study was authorized by the Municipal Health Department of Fortaleza and thus approved by the Ethics Research Committee of the University of Ceará (CEP/UFC) on November 1st, 2013: Federal Protocol No. 20301313.6.0000.5054.

Results

In the period from 2001 to 2012, 194,446 suspected cases of dengue were recorded. The years considered as epidemic, with a higher incidence of confirmed cases, were 2001 (587.0/100 thousand inhabitants), 2006 (637.5/100 thousand inhabitants), 2008 (1,396.6/100 thousand inhabitants), 2011 (1.387,3/100 thousand inhabitants) and 2012 (1,561.1/100 thousand inhabitants) (Figure 1). These epidemics were marked by the spreading of different serotypes and simultaneous co-circulation of up to three serotypes in a single year, as observed in 2002 and 2003. In 2001, there was a subtle prevalence of serotype DENV-2 (53.0%) associated with the co-circulation of DENV-1 (47.0%). In 2006, the prevalence was of serotype DENV-3 (90.0%); in 2008, of DENV-2 (65.0%); in 2001, of DENV-1 (97.4%); while, in 2012, the serotype DENV-4 was introduced (98.0%). In all of the aforementioned years, there was co-circulation of at least two different viral serotypes (Figure 1).

Figure 1
- Number of cases, incidence rate, and circulating serotypes of dengue, Fortaleza, Ceará, 2001-2012

The months of April, May, and June concentrated over 70% of confirmed cases, especially May 2001 (30.1%) and May 2008 (33.8%). There were confirmed cases throughout every epidemic year. The month of May 2012 concentrated over 52% of the confirmed cases in that year (Table 1).

Table 1
- Distribution of notified dengue cases according to month of notification, classification and evolution, by epidemic year, Fortaleza, Ceará, 2001, 2006, 2008, 2011 and 2012

After the epidemic in 2008, there was a subtle increase in the percentage of inconclusive cases. The epidemic with most recorded deaths was occurred in 2006, with a total of 36 confirmed deaths (Table 1).

There was a prevalence of cases in women, ranging from 54.4% (2011) to 60.4% (2001). It was recorded a higher number of cases in the age group of individuals between 20 and 49 in all the epidemic years, proportionally. There was a significant increase in infection within those under the age of 9 (23.7%) during the 2008 epidemic (Table 2). The average age of cases was 27.7 years old (0 to 95). Throughout the first three epidemics, there was a decrease in the age of infection, and a subtle increase starting from 2011. In the epidemic years between 2001-2012, the median age decreased significantly.

Table 2
- Hospitalization time, number and percentage of confirmed cases of dengue, dengue with complications, dengue hemorrhagic fever (DHF), and dengue shock syndrome according to sex and age group, and fatality, Fortaleza, Ceará, 2001, 2006, 2088, 2011 and 2012

Among those admitted to the hospital, the average time of hospitalization was 6.4 days (1 to 30). In the epidemics of 2001, 2006, 2008, and 2011, the majority of individuals was hospitalized from 1 to 5 days. In 2012, most hospitalizations (57.4%) were recommended for a period from 6 to 14 days, suggesting higher severity (Table 2).

In general, women had higher prevalence among severe cases, especially in 2001 (62.1%); the exception was 2011, with 48.5% women comprising such cases (Table 2). The higher frequency of severe cases of the disease was found among the age groups 20 to 49 (49.8%) and 10 to 19 (19.5%). In 2008, severe cases in children below 9 represented 19.6% of cases. Average fatality for DHF in the period was of 13.7%, ranging from 17.2% in 2001 to 3.4% in 2008 (Table 2).

The incidence rate of the disease was always higher among women, varying between 662.0 cases/100 thousand inhabitants in 2006 and 1,675.5 cases/100 thousand inhabitants in 2012. It is worth mentioning the substantial increase in incidence among those below 9 years old, a rate that reached 2,331.3 cases/100 thousand inhabitants in the 2008 epidemic (Table 3).

Table 3
- Dengue incidence rate (per 100 thousand inhabitants) according to age group and sex, Fortaleza, Ceará, 2001, 2006, 2008, 2011 and 2012

The number of household visit cycles and the simultaneous rapid survey of Aedes infestation index, conducted by health agents, ranged from three (2008) to six household visit cycles (2006). The vector infestation rates fluctuated between 0.5% during the third cycle conducted in 2008 (between October 13th and October 18th) and 9.2% during the second cycle of 2001 (conducted between May 3rd and August 24th). Four cycles presented infestation rates below 1%. The highest infestation rate was recorded in 2001, reaching 9.2% (Figure 2).

Figure 2
- Aedes aegypti building infestation index, according to household visit control cycle. Fortaleza, Ceará, 2001, 2006, 2008, 2011 and 2012

When analyzed separately by Regional District Offices (SER), the data show building infestation rates ranging from 0.2% to 14.0% in SERs II and IV, respectively, during the household visit cycles in the years of epidemics studied. SER III had the highest infestation rates, followed by SERs V, I, II, IV, and VI. In 17 cycles during the epidemic years, the building infestation, regardless of the SER, was above 1%.

The containers used to store water for human consumption represented over 50% of all deposits infested by the Aedes aegypti mosquito, in all epidemic years. We observed an increase in the proportion of infested plant vases and pots, from 3.4% in 2001 to 21% in 2012 (data not presented in the table). The containers used to store water (type A2) had the highest infestation rates among the deposits of water that presented larvae in SERs I, III, V, and VI. In SERs II and IV, the substantial rates were in drains and toilets (type C) (Table 4).

Table 4
- Percentage of deposits of water infested with the Aedes aegypti mosquito during epidemic years according to Regional District Office, Fortaleza, Ceará, 2001-2012

Discussion

In a 12-year period (2001-2012), Fortaleza recorded five dengue epidemics. We observed a progressive increase in the incidence of the disease, which would reach its peak in 2012, the highest in the historical series of dengue in the municipality, with simultaneous circulation of more than one serotype, increase in the average hospitalization time, and high fatality rate.

A study conducted in the city of Manaus, between years 2000 and 2012, identified 2011 as the worst epidemic year in that area.1717. Santos LS. Clima urbano e dengue (2000-2012) na cidade de Manaus-AM [Dissertação]. Manaus (AM): Universidade Federal de Amazonas; 2016. In the city of Natal, 2008 was the year that presented the highest incidence of the disease and - as in the present study - circulation of the serotype DENV-2.1818. Roque ACM, Santos PFBB, Medeiros ER. Perfil epidemiológico da dengue no município de Natal e Região Metropolitana no período de 2007 a 2012. Rev Ciênc Plural. 2015;1(3):51-61. Epidemic years, even within the same geographic region as the Northeast, fluctuate significantly. That is due to the moment dengue was introduced into the region, the diversity of circulating serotypes, the differences in susceptibility to the various serotypes, the simultaneous presence of such serotypes, and the installed capacity of local epidemiological surveillances and of vector control activities developed there.

Age groups in cases of dengue suffered an important shift, striking the population under 10 in 2008, presumably when children were more susceptible due to the reintroduction of DENV-2.1919. Cavalcanti LP, Vilar D, Souza-Santos R, Teixeira MG. Change in age pattern of persons with dengue, Northeastern Brazil. Emerg Infect Dis. 2011 Jan;17(1):132-4.

Although we observed a subtle predominance of cases affecting women, this difference did not seem relevant, considering the epidemic years studied, which corroborates epidemics documented between 2000 and 2012 in Manaus, Natal, and São Luís.1717. Santos LS. Clima urbano e dengue (2000-2012) na cidade de Manaus-AM [Dissertação]. Manaus (AM): Universidade Federal de Amazonas; 2016.,1818. Roque ACM, Santos PFBB, Medeiros ER. Perfil epidemiológico da dengue no município de Natal e Região Metropolitana no período de 2007 a 2012. Rev Ciênc Plural. 2015;1(3):51-61.,2020. Carvalho ACP, Portela FC, Ferro TAF, Bomfim MRQ. Epidemiologia do vírus da dengue em São Luís, Maranhão, no período de 2002 a 2012. Rev Patol Trop. 2016 jul-set;45(3):243-55. However, epidemiological surveys on dengue conducted in Brazil do not suggest higher risk due to sex.2121. Cunha RV, Maspero RC, Miagostovich MP, Araújo ES, Luz DC, Nogueira RM, et al. Dengue infection in Paracambi, State of Rio de Janeiro, 1990-1995. Rev Soc Bras Med Trop. 1997 Sep-Oct;30(5):379-83.,2222. Siqueira JB, Martelli CM, Maciel IJ, Oliveira RM, Ribeiro MG, Amorim FP, et al. Household survey of dengue infection in central Brazil: spatial point pattern analysis and risk factors assessment. Am J Trop Med Hyg. 2004 Nov;71(5):646-51.,2323. Vasconcelos PFC, Lima JWO, Rosa APAT, Timbó MJ, Rosa EST, Lima HR et al. Epidemia de dengue em Fortaleza, Ceará: inquérito soro-epidemiológico aleatório. Rev Saúde Pública. 1998 out;32(5):447-54. This finding highlights a probable bias in the recording of notified cases as these are, for the most part, cases of household transmission, and likely due to the fact that women tend to make use of health care services and seek medical attention more often than men.

The higher incidence of the disease in young adults, as found in the present study, supports the findings in researches conducted in the cities of Manaus, Natal, and São Luís.1717. Santos LS. Clima urbano e dengue (2000-2012) na cidade de Manaus-AM [Dissertação]. Manaus (AM): Universidade Federal de Amazonas; 2016.,1818. Roque ACM, Santos PFBB, Medeiros ER. Perfil epidemiológico da dengue no município de Natal e Região Metropolitana no período de 2007 a 2012. Rev Ciênc Plural. 2015;1(3):51-61.,2020. Carvalho ACP, Portela FC, Ferro TAF, Bomfim MRQ. Epidemiologia do vírus da dengue em São Luís, Maranhão, no período de 2002 a 2012. Rev Patol Trop. 2016 jul-set;45(3):243-55. In São Luis, like in Fortaleza, there was a higher number of severe forms of the disease in populations previously exposed to serotypes 1, 2, and 3.2020. Carvalho ACP, Portela FC, Ferro TAF, Bomfim MRQ. Epidemiologia do vírus da dengue em São Luís, Maranhão, no período de 2002 a 2012. Rev Patol Trop. 2016 jul-set;45(3):243-55.

A greater severity of cases was detected in 2008, possibly due to the higher of occurrence in children 9 years old and due to the fact that DENV-2 was the main serotype in circulation that year, leading to a large number of hospitalizations.1919. Cavalcanti LP, Vilar D, Souza-Santos R, Teixeira MG. Change in age pattern of persons with dengue, Northeastern Brazil. Emerg Infect Dis. 2011 Jan;17(1):132-4. In the epidemic of 2008, the number of deaths was not higher probably due to the considerable effort put into health care. In the years of epidemic, health professionals may be more aware and also the health network while dealing with the infection that, despite a larger demand, would offer early care to the severe cases and thus reduce the fatality of the disease. Moreover, the identification of a higher number of deaths is directly related to the existence of a service of death verification (SVO) established and at work alongside epidemiological surveillance and the Public Health Central Laboratory (LACEN).2424. Cavalcanti LP, Braga DN, da Silva LM, Aguiar MG, Castiglioni M, Silva-Junior JU, et al. Postmortem diagnosis of dengue as an epidemiological surveillance tool. Am J Trop Med Hyg. 2016 Jan;94(1):187-92. Such collaborative local work strengthens the ability of health care services to detect questionable deaths unnoticed by assistance throughout clinical evolution.

With regard to entomological indicators, the percentage of water tanks infested by Ae. aegypti was three times lower; the percentage of infested tires was nine times lower, considering the epidemics between 2001 and 2012. However, there was a significant increase in proportional infestation of plant pots and vases, according to studies conducted in Manaus during 2000 - 2012, and in the Northeast region, in 2016.1717. Santos LS. Clima urbano e dengue (2000-2012) na cidade de Manaus-AM [Dissertação]. Manaus (AM): Universidade Federal de Amazonas; 2016.,2525. Cavalcanti LPG, Oliveira RMAB, Alencar CH. Changes in infestation sites of female Aedes aegypti in Northeast Brazil. Rev Soc Bras Med Trop. 2016 Jul-Aug;49(4):498-501. Probably, this change reflects almost three decades worth of information provided by health organisms about the chances of such containers of pooling water in the Northeast, as well as the control actions developed since then, such as permanently sealing water tanks, temporary sealing with nylon wire mesh, and even the use of biological mechanisms such as predatory fish.

It is important to highlight that even a relatively low Ae. aegypti infestation - according to the majority of larval index rapid conducted - did not prevent the occurrence of significant epidemics. Although low, the values for this indicator were almost never below 1%, according to information provided by the Municipal Health Department of Fortaleza. Furthermore, there is a higher incidence of the disease and a higher infestation rate, in the first semester of the year. Another point to be considered is that it is possible that there are differences in vector competence between regions, suggesting that in some areas the vectors can adapt more easily to environmental conditions, have longer life time, and therefore transmit dengue for a longer period.

In this scenario, dengue remains a major Public Health issue in Fortaleza. After circulating for 30 years, with four different serotypes, having the constant presence of its main vector spread out in different neighborhoods, and taking into account the recent co-circulation of other arboviruses such as Zika and chikungunya - which makes diagnosis and adequate early treatment harder to accomplish -, dengue epidemics potentially became worse.2626. Carvalho FHC, Pamplona L. The triple epidemic of arboviroses in Brazil. What does this mean? Are we ready? Rev Med UFC. 2016 Jan-Jun;56(1):6-7. The challenge right now is to understand the development of these epidemics alongside circulation of other exanthematous diseases such as measles in 2013 and 2015,2727. Leite RD, Barreto JLTMS, Monteiro DCS. Measles reemergence in Ceará, Northeast Brazil, 15 years after elimination. Emerg Infect Dis. 2015 Sep;21(9):1681-3. doi: 10.3201/eid2109.150391 and Zika and chikungunya in 2015 and 2016.2828. Heukelbach J, Alencar CH, Kelvin AA, Oliveira WK, Cavalcanti LPG. Zika vírus out break in Brazil. J Infect Dev Ctries. 2016 Feb;10(2):116-120.

It will be increasingly harder to talk about confirmed cases of dengue using tests such as IgM or even NS1 as reference, given that the sensitivity and specificity of such techniques will be greatly affected by the simultaneous circulation of the other arboviruses.2929. Shukla MK, Singh N, Sharma RK, Barde PV. Utility of dengue NS1 antigen rapid diagnostic test for use in difficult to reach areas and its comparison with dengue NS1 ELISA and qRT-PCR. J Med Virol. 2017 Jul;89(7):1146-50.,3030. Huits R, Soentjens P, Maniewski-Kelner U, Theunissen C, Broucke SVD, Florence E, et al. Clinical utility of the ns1 antigen rapid diagnostic test in the management of dengue in returning travelers with fever. Open Forum Infect Dis. 2017 Jan;4(1):ofw273. The problem of sensitivity in laboratory techniques could be attenuated with the dissemination of molecular techniques of diagnosis and/or with the implementation of an integrated surveillance for arbovirus infections. The costs of these molecular techniques, however, could potentially hamper their dissemination and an integrated surveillance. Even specialists are yet to reach a consensus regarding this issue. The secondary data encompassing the records of dengue in Brazil will need to be reexamined in light of this simultaneous circulation. It is likely that we will have cases of dengue, Zika, and chikungunya confusing clinical diagnosis, which will be reflected in the number of notifications and which will thus ask for an investigation.

A limitation worth noting in this study was the theoretical framework based on secondary bibliographic databases used by local surveillance, as well as the incompleteness of some variables analyzed. The use of these data could lead to overestimation of the real number of cases that broke out during the epidemics. Notwithstanding, understanding these epidemics was useful in the identification of its main entomological and epidemiological aspects in Fortaleza.

References

  • 1
    Pan American Health Organization. World Health Organization. Neglected, tropical and vector borne disease - dengue [Internet]. 2017 [citado 2017 out 30]. Disponível em: Disponível em: http://www.paho.org/hq/index.php?option=com_topics&view=article&id=1&Itemid=40734 ; Acessado em 14/10/2016
    » http://www.paho.org/hq/index.php?option=com_topics&view=article&id=1&Itemid=40734
  • 2
    Bhatt S, Gething PW, Brady OL, Messina JP, Farlow AW, Moyes CL, et al. The global distribution and burden of dengue. Nature. 2013 Apr;496(7446):504-7.
  • 3
    Gonçalves Neto VS, Rebêlo JMM. Aspectos epidemiológicos do dengue no Município de São Luís, Maranhão, Brasil, 1997-2002. Cad Saúde Pública. 2004 set-out;20(5):1424-31.
  • 4
    Monteiro ESC, Coelho ME, Cunha IS, Cavalcante MAS, Carvalho FAA. Aspectos epidemiológicos e vetoriais da dengue na cidade de Teresina, Piauí - Brasil, 2002 a 2006. Epidemiol Serv Saúde. 2009 dez;18(4):365-74.
  • 5
    Barbosa IR, Araújo LF, Carlota FC, Araújo RS, Maciel IJ. Epidemiology of dengue fever in the State of Rio Grande do Norte, Brazil, 2000 to 2009. Epidemiol Serv Saúde. 2012 jan-mar;21(1):149-57.
  • 6
    Suaya JA, Shepard DS, Siqueira JB, Martelli CT, Lum LC, Tan LH, et al. Cost of dengue cases in eight countries in the Americas and Asia: a prospective study. Am J Trop Med Hyg, 2009 May;80(5):846-55.
  • 7
    Shepard DS, Coudeville L, Halasa YA, Zambrano B, Dayan GH. Economic impact of dengue illness in the Americas. Am J Trop Med Hyg. 2011 Feb;84(2):200-7.
  • 8
    Shepard DS, Undurraga EA, Halasa YA. Economic and disease burden of dengue in Southeast Asia. PLoS Negl Trop Dis. 2013 Feb;7(2):e2055.
  • 9
    Cavalcanti LPG, Coelho ICB, Vilar DCLF, Holanda SGS, Escóssia KNF, Souza-Santos R. Clinical and epidemiological characterization of dengue hemorrhagic fever cases in northeastern, Brazil. Rev Soc Bras Med Trop. 2010 Jul-Aug;43(4):355-8.
  • 10
    Lima EP, Goulart MOF, Albuquerque MR, Victor FM, Pinto NB. Time series analysis of incidence of dengue and Aedes aegypti in Ceará. Rev Bras Promoc Saúde. 2013 Jul-Sep;26(3):340-48.
  • 11
    Cavalcanti LPG, Barreto FKA, Oliveira RMAB, Canuto IFP, Lima AAB, Lima JWO, et al. Trinta anos de dengue no Ceará: história, contribuições para ciência e desafios no cenário atual com tripla circulação de arbovírus. J Health Biol Sci. 2018 Jan-Mar; 6(1):65-82.
  • 12
    Ministério da Saúde (BR). Datasus. População residente - Brasil [Internet]. 2017 [citado 2017 ago 25]. Disponível em: Disponível em: http://tabnet.datasus.gov.br/cgi/deftohtm.exe?novapop/cnv/popbr.def
    » http://tabnet.datasus.gov.br/cgi/deftohtm.exe?novapop/cnv/popbr.def
  • 13
    Ministério da Saúde (BR). Secretaria de Vigilância em Saúde. Guia de vigilância em saúde [Internet]. Brasília: Ministério da Saúde; 2014 [citado 2017 out 30]. 812 p. Disponível em: Disponível em: https://pbh.gov.br
    » https://pbh.gov.br
  • 14
    Ministério da Saúde (BR). Conselho Nacional de Secretário de Saúde. Vigilância em Saúde - parte 1 [Internet]. Brasília: CONASS; 2011 [citado 2017 out 30] (Coleção Para Entender a Gestão do SUS 2011). 320 p. Disponível em: Disponível em: http://www.conass.org.br/bibliotecav3/pdfs/colecao2011/livro_5.pdf
    » http://www.conass.org.br/bibliotecav3/pdfs/colecao2011/livro_5.pdf
  • 15
    Ministério da Saúde (BR). Secretaria de Vigilância em Saúde. Diretoria técnica de Gestão. Diagnóstico rápido nos municípios para vigilância entomológica do Aedes Aegypti no Brasil - LIRAa: metodologia para avaliação dos índices de Breteau e Predial [Internet]. Brasília: Ministério da Saúde; 2005 [citado 2017 out 30]. 60 p. Disponível em: Disponível em: http://bvsms.saude.gov.br/bvs/publicacoes/diagnostico_rapido_municipios_aedes.pdf
    » http://bvsms.saude.gov.br/bvs/publicacoes/diagnostico_rapido_municipios_aedes.pdf
  • 16
    Brasil. Ministério da Saúde. Conselho Nacional de Saúde. Comissão Nacional de Ética em Pesquisa. Resolução nº 466, de 12 de dezembro de 2012. Dispõe sobre as diretrizes e normas regulamentadoras de pesquisas envolvendo seres humanos. Diário Oficial da República Federativa do Brasil, Brasília (DF), 2013 jun 13; Seção 1:59.
  • 17
    Santos LS. Clima urbano e dengue (2000-2012) na cidade de Manaus-AM [Dissertação]. Manaus (AM): Universidade Federal de Amazonas; 2016.
  • 18
    Roque ACM, Santos PFBB, Medeiros ER. Perfil epidemiológico da dengue no município de Natal e Região Metropolitana no período de 2007 a 2012. Rev Ciênc Plural. 2015;1(3):51-61.
  • 19
    Cavalcanti LP, Vilar D, Souza-Santos R, Teixeira MG. Change in age pattern of persons with dengue, Northeastern Brazil. Emerg Infect Dis. 2011 Jan;17(1):132-4.
  • 20
    Carvalho ACP, Portela FC, Ferro TAF, Bomfim MRQ. Epidemiologia do vírus da dengue em São Luís, Maranhão, no período de 2002 a 2012. Rev Patol Trop. 2016 jul-set;45(3):243-55.
  • 21
    Cunha RV, Maspero RC, Miagostovich MP, Araújo ES, Luz DC, Nogueira RM, et al. Dengue infection in Paracambi, State of Rio de Janeiro, 1990-1995. Rev Soc Bras Med Trop. 1997 Sep-Oct;30(5):379-83.
  • 22
    Siqueira JB, Martelli CM, Maciel IJ, Oliveira RM, Ribeiro MG, Amorim FP, et al. Household survey of dengue infection in central Brazil: spatial point pattern analysis and risk factors assessment. Am J Trop Med Hyg. 2004 Nov;71(5):646-51.
  • 23
    Vasconcelos PFC, Lima JWO, Rosa APAT, Timbó MJ, Rosa EST, Lima HR et al. Epidemia de dengue em Fortaleza, Ceará: inquérito soro-epidemiológico aleatório. Rev Saúde Pública. 1998 out;32(5):447-54.
  • 24
    Cavalcanti LP, Braga DN, da Silva LM, Aguiar MG, Castiglioni M, Silva-Junior JU, et al. Postmortem diagnosis of dengue as an epidemiological surveillance tool. Am J Trop Med Hyg. 2016 Jan;94(1):187-92.
  • 25
    Cavalcanti LPG, Oliveira RMAB, Alencar CH. Changes in infestation sites of female Aedes aegypti in Northeast Brazil. Rev Soc Bras Med Trop. 2016 Jul-Aug;49(4):498-501.
  • 26
    Carvalho FHC, Pamplona L. The triple epidemic of arboviroses in Brazil. What does this mean? Are we ready? Rev Med UFC. 2016 Jan-Jun;56(1):6-7.
  • 27
    Leite RD, Barreto JLTMS, Monteiro DCS. Measles reemergence in Ceará, Northeast Brazil, 15 years after elimination. Emerg Infect Dis. 2015 Sep;21(9):1681-3. doi: 10.3201/eid2109.150391
  • 28
    Heukelbach J, Alencar CH, Kelvin AA, Oliveira WK, Cavalcanti LPG. Zika vírus out break in Brazil. J Infect Dev Ctries. 2016 Feb;10(2):116-120.
  • 29
    Shukla MK, Singh N, Sharma RK, Barde PV. Utility of dengue NS1 antigen rapid diagnostic test for use in difficult to reach areas and its comparison with dengue NS1 ELISA and qRT-PCR. J Med Virol. 2017 Jul;89(7):1146-50.
  • 30
    Huits R, Soentjens P, Maniewski-Kelner U, Theunissen C, Broucke SVD, Florence E, et al. Clinical utility of the ns1 antigen rapid diagnostic test in the management of dengue in returning travelers with fever. Open Forum Infect Dis. 2017 Jan;4(1):ofw273.

  • *
    This study is based on Rhaquel de Morais Alves Barbosa’s thesis entitled 'Clinical, entomological and epidemiological aspects of dengue epidemics in Fortaleza, Ceará, Brazil, 2001-2012', defended to the Post-graduate Program in Public Health of the Federal University of Ceará, in December 2014. This study was funded by Fundação Cearense de Apoio ao Desenvolvimento Científico e Tecnológico (FUNCAP): Public Notice 03/2012-PPSUS-MS/CNPq/FUNCAP.

Publication Dates

  • Publication in this collection
    15 Feb 2018

History

  • Received
    05 June 2017
  • Accepted
    02 Oct 2017
Secretaria de Vigilância em Saúde e Ambiente - Ministério da Saúde do Brasil Brasília - Distrito Federal - Brazil
E-mail: ress.svs@gmail.com