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Author Notes:

Email Address: guiherme.ribeiro@bahia.fiocruz.br

Conceived and designed the experiments: MK GMC IADP UK AIK MGR GSR.

Performed the experiments: MK AMK JSC DT JMGA MGR. Analyzed the data: MK GMC KG MADW GSR. Contributed reagents/materials/analysis tools: GMC AIK MGR GSR.

Wrote the paper: MK GMC GSR. Worked on data acquisition and sample collection: MK IADP AMK MMOS AST TLQ MSR PMS HCAVL JC AHOG KG GSR.

Reviewed and approved the final version of the manuscript: MK GMC IADP AMK MMOS AST JSC TLQ MSR PMS HCAVL JC DT AHOG JMGA KG MADW UK AIK MGR GSR.

We would like to thank the technical staff who participated in study data collection and in sample processing.

Erica Souza, Nivison Nery Junior, Renan Rosa and Monique Silva for their assistance with data management, georeferencing, and with administrative matters; and Federico Costa and Jose Hagan for their advice during study conduction.

Finally, we would like to thank the indispensable contributions to accomplish this work provided by the São Marcos Emergency Center staff, especially from Aurélio Nei and Celeste Moura; of the Pau da Lima Health District, Salvador Secretariat of Health; and of Pau da Lima community leaders and resident associations.

The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript.

The authors have declared that no competing interests exist.

Subjects:

Research Funding:

This work was supported by the National Council for Scientific and Technological Development - CNPq (grant 550160/2010-8 to MGR, and grant 400830/2013-2 to GSR

Scholarship to: MK, IADP, MMOS); the Bahia Foundation for Research Support - FAPESB (grant PNX0010/2011 to MGR, and grants PPP0055/2011 and JCB0020/2013 to GSR; scholarship to: AHOG)

The Federal University of Bahia - UFBA (grants PROPI 2011, PROPI 2013, and PRODOC 2013 to GSR); the National Institutes of Health - NIH (grants R01 AI052473, U01 AI088752, R25 TW009338, and D43 TW00919 to AIK; FICRS-F fellowship to: JC)

Oswaldo Cruz Foundation (scholarship to: AMK, MMOS, AST, JSC, HCAVL, DT, MGR); and the Coordination for the Improvement of Higher Education Personnel - CAPES, Brazilian Ministry of Education (scholarship to: MK, TLQ).

Spatial Distribution of Dengue in a Brazilian Urban Slum Setting: Role of Socioeconomic Gradient in Disease Risk

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Journal Title:

PLoS Neglected Tropical Diseases

Volume:

Volume 9, Number 7

Publisher:

, Pages e0003937-e0003937

Type of Work:

Article | Final Publisher PDF

Abstract:

Background Few studies of dengue have shown group-level associations between demographic, socioeconomic, or geographic characteristics and the spatial distribution of dengue within small urban areas. This study aimed to examine whether specific characteristics of an urban slum community were associated with the risk of dengue disease. Methodology/Principal Findings From 01/2009 to 12/2010, we conducted enhanced, community-based surveillance in the only public emergency unit in a slum in Salvador, Brazil to identify acute febrile illness (AFI) patients with laboratory evidence of dengue infection. Patient households were geocoded within census tracts (CTs). Demographic, socioeconomic, and geographical data were obtained from the 2010 national census. Associations between CTs characteristics and the spatial risk of both dengue and non-dengue AFI were assessed by Poisson log-normal and conditional auto-regressive models (CAR). We identified 651 (22.0%) dengue cases among 2,962 AFI patients. Estimated risk of symptomatic dengue was 21.3 and 70.2 cases per 10,000 inhabitants in 2009 and 2010, respectively. All the four dengue serotypes were identified, but DENV2 predominated (DENV1: 8.1%; DENV2: 90.7%; DENV3: 0.4%; DENV4: 0.8%). Multivariable CAR regression analysis showed increased dengue risk in CTs with poorer inhabitants (RR: 1.02 for each percent increase in the frequency of families earning ≤1 times the minimum wage; 95% CI: 1.01-1.04), and decreased risk in CTs located farther from the health unit (RR: 0.87 for each 100 meter increase; 95% CI: 0.80-0.94). The same CTs characteristics were also associated with non-dengue AFI risk. Conclusions/Significance This study highlights the large burden of symptomatic dengue on individuals living in urban slums in Brazil. Lower neighborhood socioeconomic status was independently associated with increased risk of dengue, indicating that within slum communities with high levels of absolute poverty, factors associated with the social gradient influence dengue transmission. In addition, poor geographic access to health services may be a barrier to identifying both dengue and non-dengue AFI cases. Therefore, further spatial studies should account for this potential source of bias.

Copyright information:

© 2015 Kikuti et al.

This is an Open Access article distributed under the terms of the Creative Commons Attribution 4.0 International License ( http://creativecommons.org/licenses/by/4.0/), which permits distribution, public display, and publicly performance, making multiple copies, distribution of derivative works, provided the original work is properly cited. This license requires copyright and license notices be kept intact, credit be given to copyright holder and/or author.

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