Human and canine visceral leishmaniasis in an emerging focus in Araçuaí, Minas Gerais: spatial distribution and socio-environmental factors

Ursine, Renata Luiz; Dias, João Victor Leite; Morais, Harriman Aley; Pires, Herton Helder Rocha

doi:10.1590/0074-02760160133

Abstract

This study aimed to analyse the spatial distribution of human (2007-2013) and canine (2013) visceral leishmaniasis (VL) in the city of Araçuaí, Minas Gerais, Brazil, and identify the socio-environmental factors related to their occurrence. The spatial distribution of human and canine cases was analysed by kernel density estimation (KDE) and the K function. The KDE values were analysed for correlation between human and canine LV and for normalised difference vegetation index (NDVI). Socio-environmental aspects of household structures and surroundings were evaluated. The spatial distribution of human and canine VL cases exhibited a significant aggregated pattern in distances greater than 350 and 75 m, respectively. The higher occurrence of human and canine infection occurred in the central area of the city. A positive correlation between the densities of human and canine cases was observed, as well as a negative correlation between NDVI and densities of human and canine cases. Socio-environmental analysis revealed that the large amount of animals, organic material from trees and deficiencies in environmental sanitation are possibly contributing to the continuation of the transmission cycle of Leishmania infantum in Araçuaí. These results can contribute to the planning by competent agencies to reduce the incidence of infection in the city.

kala-azar; environmental health; urbanisation; spatial analysis

Visceral leishmaniasis (VL) has a large geographic distribution, occurring in Asia, Europe, the Middle East, Africa and the Americas, affecting 88 countries, the majority of which are classified as developing. It is estimated that approximately 200,000 to 400,000 new cases occur every year, with 20,000 to 40,000 of these being fatal (Alvar et al. 2012Alvar J, Vélez ID, Bern C, Herrero M, Desjeux P, Cano J, et al. Leishmaniasis worldwide and global estimates of its incidence. PLoS ONE. 2012; 7(5): e35671.).

In Brazil, VL has caused severe public health problems, due to its difficulty to control, high lethality and wide distribution, as it occurs within the five regions of the country (do Prado et al. 2011do Prado PF, Rocha MF, de Sousa JF, Caldeira DI, Paz GF, Dias ES. Aspectos epidemiológicos da leishmaniose visceral humana e canina em Montes Claros, estado de Minas Gerais, Brasil, entre 2007 e 2009. Rev Soc Bras Med Trop. 2011; 44(5): 561-6.). In recent years, this endemic has shown a clear expansion and urbanisation related to environmental, social and demographic factors, in addition to the adaptation of Lutzomyia longipalpis to the urban environment and the presence of domestic reservoirs (de Almeida et al. 2011de Almeida AS, Medronho RA, Werneck GL. Identification of risk areas for visceral leishmaniasis in Teresina, Piauí state, Brazil. Am J Trop Med Hyg. 2011; 84(5): 681-7., Cardim et al. 2013Cardim MFM, Rodas LAC, Dibo MR, Guirado MM, Oliveira AM, Chiaravalloti-Neto F. Introdução e expansão da Leishmaniose visceral americana em humanos no estado de São Paulo, 1999-2011. Rev Saude Publica. 2013; 47(4): 691-700., Marcondes & Rossi 2013Marcondes M, Rossi CN. Leishmaniose visceral no Brasil. Braz J Vet Res Anim Sci. 2013; 50(5): 341-52., Ortiz & Anversa 2015Ortiz RC, Anversa L. Epidemiologia da leishmaniose visceral em Bauru, São Paulo, no período de 2004 a 2012: um estudo descritivo. Epidemiol Serv Saude. 2015; 24(1): 97-104., Mendes et al. 2016)Mendes CS, Coelho AB, Féres JG, de Souza EC, da Cunha DA. Impacto das mudanças climáticas sobre a leishmaniose no Brasil. Cien Saude Colet. 2016; 21(1): 263-72..

The Brazilian VL control program recommends the diagnosis and treatment of infected individuals, identification and control of domestic reservoirs, vector control, environmental management and health education services (MS/SVS 2006MS/SVS - Ministério da Saúde/Secretaria de Vigilância em Saúde. Manual de vigilância e controle da leishmaniose visceral. Brasília: Ministério da Saúde; 2006. 120 pp.). The success of these program activities, however, is variable depending on the condition of each city and the way in which they are executed (Carneiro et al. 2013Carneiro M, Morais MHF, Araújo VEM, Menezes FC, Fiuza VOP, Assunção RM, et al. Avaliação e aperfeiçoamento de sistema de informação sobre o Programa de Controle da Leishmaniose Visceral e estudo de fatores associados à infecção e ao óbito em Belo Horizonte, Minas Gerais, Brasil. Gerais: Rev Saude Publica SUS/MG. 2013; 1(1): 65-6., Morais et al. 2015Morais MHF, Fiuza VOP, de Araújo VEM, de Menezes FC, Carneiro M. Avaliação das atividades de controle da leishmaniose visceral em Belo Horizonte, Minas Gerais, 2006-2011. Epidemiol Serv Saude. 2015; 24(3): 485-96.).

Considering this, the use of geotechnology, such as spatial statistics and remote sensing, has contributed to the investigation of socio-environmental aspects related to VL, as it generates data that can possibly identify priority locales for development of vigilance and control programs (Cardim et al. 2013Cardim MFM, Rodas LAC, Dibo MR, Guirado MM, Oliveira AM, Chiaravalloti-Neto F. Introdução e expansão da Leishmaniose visceral americana em humanos no estado de São Paulo, 1999-2011. Rev Saude Publica. 2013; 47(4): 691-700., Barbosa et al. 2014Barbosa DS, Belo VS, Rangel MES, Werneck GL. Spatial analysis for identification of priority areas for surveillance and control in a visceral leishmaniasis endemic area in Brazil. Acta Trop. 2014; 131: 56-62., Borges et al. 2014Borges LFNM, Lopes EGP, Freitas ACP, Silva MX, Haddad JPA, Silva JA, et al. Prevalência e distribuição espacial da leishmaniose visceral em cães do município de Juatuba, Minas Gerais, Brasil. Cienc Rural. 2014; 44(2): 352-7., de Almeida et al. 2014de Almeida AS, Werneck GL, Resendes APC. Classificação orientada a objeto de imagens de sensoriamento remoto em estudos epidemiológicos sobre leishmaniose visceral em área urbana. Cad Saude Publica. 2014; 30(8): 1639-53., Teixeira-Neto et al. 2014Teixeira-Neto RG, da Silva ES, Nascimento RA, Belo VS, de Oliveira CDL, Pinheiro LC, et al. Canine visceral leishmaniasis in an urban setting of southeastern Brazil: an ecological study involving spatial analysis. Parasit Vectors. 2014; 7: 485., Vieira et al. 2014Vieira CP, Oliveira AM, Rodas LAC, Dibo MR, Guirado MM, Chiaravalloti Neto F. Temporal, spatial and spatiotemporal analysis of the occurrence of visceral leishmaniasis in humans in the City of Birigui, state of São Paulo, from 1999 to 2012. Rev Soc Bras Med Trop. 2014; 47(3): 350-8.).

The city of Araçuaí, located in the valley of Jequiti- nhonha, Minas Gerais, Brazil, is endemic for VL (Santos et al. 2013Santos EMS, Santos HO, Santos RA, Rocha MHFF, da Silva CP, Sobrinho JFM. Educação ambiental e posse responsável de animais domésticos no combate à Leishmaniose no município de Araçuaí, MG. UDESC em ação [Internet] 7; 2013 [cited 2016 Mar 8]. Available from: http://www.revistas.udesc.br/index.php/udescemacao/article/view/3289.
http://www.revistas.udesc.br/index.php/u... ), but many aspects related to this phenomenon are still poorly described. Given that, this study aimed to analyse the spatial distribution of human and canine VL and the socio-environmental factors related to the areas of human infection occurrence within the city.

MATERIALS AND METHODS

Study area - The city of Araçuaí (lat: - 16.85; long: - 42.06) is located in the middle Jequitinhonha Valley, in the state of Minas Gerais, and lies 289 m above sea level (INMET/MAPA 2015INMET/MAPA - Instituto Nacional de Meteorologia/Ministério da Agricultura, Pecuária e Abastecimento. Normais Climatológicas do Brasil 1961-1990. 2015. Available from: http://www.inmet.gov.br/portal/index.php?r=clima/normaisClimatologicas.
http://www.inmet.gov.br/portal/index.php... ). The municipality occupies an area of 2,236.279 km², with an estimated population of 37,220 inhabitants in 2015 (MP/IBGE 2015MP/IBGE - Ministério do Planejamento, Orçamento e Gestão/Instituto Brasileiro de Geografia e Estatística. Resolução nº 2, Diário Oficial da República Federativa do Brasil, Brasília, 28 agosto 2015, Seção I, nº 165; 2015. p. 98-115. Available from: http://pesquisa.in.gov.br/imprensa/jsp/visualiza/index.jsp?data=28/08/2015&jornal=1&pagina=103&totalArquivos=248.
http://pesquisa.in.gov.br/imprensa/jsp/v... ).

The climate is semi-arid, with 823.1 mm average annual precipitation, with the majority of rainfall concentrated during the period from October-March. The average annual temperature is around 24.2ºC (14.9ºC-33.4ºC), with February the hottest month, and July the coldest (INMET/MAPA 2015INMET/MAPA - Instituto Nacional de Meteorologia/Ministério da Agricultura, Pecuária e Abastecimento. Normais Climatológicas do Brasil 1961-1990. 2015. Available from: http://www.inmet.gov.br/portal/index.php?r=clima/normaisClimatologicas.
http://www.inmet.gov.br/portal/index.php... ).

Principal economic activities in Araçuaí are related to subsistence agriculture, handicraft manufacture and informal mining (MP/IBGE 2015MP/IBGE - Ministério do Planejamento, Orçamento e Gestão/Instituto Brasileiro de Geografia e Estatística. Resolução nº 2, Diário Oficial da República Federativa do Brasil, Brasília, 28 agosto 2015, Seção I, nº 165; 2015. p. 98-115. Available from: http://pesquisa.in.gov.br/imprensa/jsp/visualiza/index.jsp?data=28/08/2015&jornal=1&pagina=103&totalArquivos=248.
http://pesquisa.in.gov.br/imprensa/jsp/v... ).

Human and canine VL data - Notification data related to cases of human infection by Leishmania infantum (= Leishmania chagasi) in Araçuaí were collected from records of the Information System on Notifiable Diseases in May, 2014, regarding the period from 2007-2013. Among the required registration fields, data were collected regarding sex, age and residence zone. Among the essential but not required registration fields, data regarding the evolution of the cases were collected.

The annual incidence of VL in the city was calculated considering the population at risk estimated from the population data from the 1991, 2000 and 2010 demographic censuses, and population counts of 1996 and 2007, using an equation of geometric growth model. We adopted this model because it presented the best fit to the population data, with a higher determination coefficient (R² = 0.9025) than linear, exponential and logarithmic models.

To evaluate the relationship between the presence of human infection by L. infantum and occurrence areas of canine infection, data from serological canine exams from surveys conducted in 2013 were acquired from records available in the Araçuaí Secretary of Health. According to the health service routine, these surveys were carried out by sampling, using a rapid immunochromatographic test (Dual-Path Platform technology - DPP®) and the Enzyme-linked Immunosorbent Assay (ELISA). The following information was collected from the records: locality, date of exam and its result.

Spatial analyses - The households of people who had VL during the period of the study were georeferenced using handheld GPS equipment (Garmin Oregon^TM). Canine infections for 2013 were referenced based on centroids of blocks in which they occurred, in agreement with sketches from the city’s health service, designed from composition of images in Google Earth®. The reference projection used was the UTM, zone 23 S, datum WGS 84.

The spatial distribution analysis of human and canine VL was performed using the quartic function of kernel density estimation (KDE) (Gatrell et al. 1996Gatrell AC, Bailey TC, Diggle PJ, Rowlingson BS. Spatial point pattern analysis and its application in geographical epidemiology. Trans Inst Br Geogr. 1996; 21: 256-74.), considering a bandwidth of 400 m, and generating a matrix with a grid cell size of 30 m. The KDE is a non-parametric function that estimates the values of probable occurrence based on the density of events nearby. For human cases of VL we used only quartic function that generated an image with values of estimated density by each pixel. For canine cases we followed the same procedure, but added a multiplier attribute (proportion of positive dogs in each block) to the KDE in order to weight the function.

The spatial aggregation of infection was analysed by the K function (Ripley 1981Ripley BD. Spatial statistics. New York: John Wiley & Sons; 1981.), whose statistical significance was evaluated using 999 permutations in a Complete Spatial Randomness model, considering a significance level of 0.05. The spatial statistical analyses were only conducted for the urban area of Araçuaí, and were performed using SPRING 5.2.7 (Câmara et al. 1996Câmara G, Souza RCM, Freitas UM, Garrido J. SPRING: integrating remote sensing and GIS by object-oriented data modelling. Comput Graphics. 1996; 20(3): 395-403.).

The normalised difference vegetation index (NDVI) was adopted to evaluate correlation between the quantity of vegetation and the occurrence of VL in Araçuaí. NDVI was calculated by means of bands 3 (red) and 4 (near infrared) of the Thematic Mapper sensor on the LANDSAT 5 satellite, with 30 m of spatial resolution. The images used for the calculation corresponded to orbit 217, point 072, collected on July 1, 2007, August 4, 2008, August 7, 2009 and August 26, 2010. These images were selected for their low cloud cover of the study area. All of the images were georeferenced based on an orthorectified image and were corrected for atmospheric effects by means of dark pixel subtraction (Chavez Jr 1988Chavez Jr PS. An improved dark-object subtraction technique for atmospheric scattering correction of multispectral data. Remote Sens Environ. 1988; 24(3): 459-79.). NDVI was calculated for each of the images and the average index over the four year period was used for analysis.

The satellite images were obtained from the Brazilian Institute for Space Research (http://www.inpe.br) and the United States Geological Survey (earthexplorer.usgs.gov/). Image processing was performed with SPRING 5.2.7.

The matrices of NDVI values were exported in a text document and the grid cells were superimposed and paired with KDE values for human and canine VL to evaluate the correlation between variables. The Spearman correlation coefficient (ρ) was used in GraphPad Prism 5.0® (GraphPad Software, San Diego, CA).

Description of housing and surroundings - Socio-environmental aspects of housing structures and their surroundings were evaluated using a structured form based on a detailed questionnaire designed by Fernandes (2012)Fernandes AB. Aspectos ambientais associados à prevalência de infecção canina por Leishmania chagasi em Teresina: estudo caso-controle utilizando sistema de informação geográfico e sensoriamento remoto [dissertação]. Rio de Janeiro: Centro de Ciências da Saúde; 2012. for the study of environmental aspects associated with prevalence of canine infection by L. infantum in Teresina, Piauí. All the houses with reported cases of human VL were visited by a member of the research team (between February 2014 and June 2014) that fulfilled the form based on personal observation and the responses provided by householder.

Statistical analyses - The variables sex, age group by sex and residence zone were analysed using a corrected X² test (Yates) with expected equal rates, considering a significance level of 0.05 in BioEstat 5.0 (Ayres et al. 2007Ayres M, Ayres Jr M, Ayres DL, Santos AAS. Bioestat 5.0. Aplicações estatísticas nas áreas das ciências biomédicas. Version 5.0 [software]. 2007 Jan 15 [cited 2016 Feb 10]. Available from: http://www.mamiraua.org.br/pt-br/downloads/programas/bioestat-versao-53/.
http://www.mamiraua.org.br/pt-br/downloa... ).

This study was approved by the Committee on Ethics in Research of the Federal University of Vales do Jequiti- nhonha and Mucuri, under number 522.035, respecting Resolution 466/12 of the National Board of Health. All participants in the research signed the Terms of Consent.

RESULTS

Between 2007-2013 a total of 41 cases of human VL were reported in Araçuaí, however, two (4.9%) of these were not analysed due to the fact that the addresses were incorrect, making it impossible to locate the individuals. During the study period, a decrease in the incidence of disease was observed in 2008 and 2009, followed by an increase in 2010, and stabilisation from 2011 on (Fig. 1).

Fig. 1
: incidence of visceral leishmaniasis between 2007-2013, in the city of Araçuaí, Minas Gerais (MG), Brazil. Source: population estimated from1991, 2000 and 2010 censuses data, and 1996 and 2007 population counts data from Instituto Brasileiro de Geografia e Estatística, and visceral leishmaniasis cases from the Municipal Secretary of Health of Araçuaí, MG, Brazil.

The largest number of reported cases of VL was observed among children, mainly four years and younger, male individuals and individuals living in urban areas (Table I). However, the differences were significant for the sex variable (corrected X² = 6.564; p = 0.0104) and the sex between those older than 10 years, with a predominance of men in both cases (corrected X² = 4.05; p = 0.0442).

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TABLE I
Profile of patients with visceral leishmaniasis in Araçuaí, Minas Gerais, Brazil, between 2007-2013. Source: individual notification forms of the municipal information system on notifiable diseases

Regarding the activities they were performing at the time of discovery of infection among individuals over 18 years of age, eight worked in farming or planting, three were students, two were builder and three worked in general services.

With respect to case outcomes, 36 (92.3%) were cured and three (7.7%) resulted in death. One of these fatal cases had a coinfection with HIV.

In regards to canine infection, data from tests performed on 487 dogs were collected in 2013, 95 (19.5%) of which tested seropositive.

The spatial distribution of human and canine VL in Araçuaí exhibited an aggregate pattern, with statistically significant groupings at distances greater than 350 m for human VL (Fig. 2A) and 75 m for canine infection (Fig. 2B).

Fig. 2
: graph of the K function expressed in L function values for the occurrence of visceral leishmaniasis in the city of Araçuaí, Minas Gerais, Brazil. (A) Human visceral leishmaniasis cases (2007-2013); (B) canine visceral leishmaniasis (2013).

The exploratory analysis using KDE points to a larger occurrence of cases in humans within the central area of the city (Fig. 3A). In a similar manner, canine infection was concentrated in those areas, with a clear overlap with areas of human infection (Fig. 3B). A strong positive correlation and statistical significance between densities of human and canine cases was observed (ρ = 0.6377; IC 95% = 0.6284 to 0.6469; p < 0.0001).

Fig. 3
: kernel map of visceral leishmaniasis in the urban area of Araçuaí, Minas Gerais, Brazil. (A) Human visceral leishmaniasis (2007-2013); (B) canine visceral leishmaniasis (2013). Limits represent census lines according to the 2010 census.

In relation to the density of occurrence of VL cases and NDVI, a negative correlation was observed for both human cases (ρ = -0.1921; IC 95% = -0.2071 to -0.1770; p < 0.0001) and canine cases (ρ = -0.2314; IC 95% = -0.2462 to -0.2166; p < 0.0001).

By analysing the socio-environmental conditions and residential structures of people who had VL in Araçuaí, it was found that the majority had a cement floor (66,7%) and brick walls with plaster (76,9%). Besides, the houses generally exhibited piped water, latrines for wastewater, and a covered water storage tank. Besides this, the majority of residences had a garden or backyard with shrubs and many fruit trees, the presence of various animals including dogs, cats and birds, proximity to natural environments and crowded houses close to one another. These and other socio-environmental characteristics of the housing conditions of individuals affected by VL are presented in Table II.

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TABLE II
Socio-environmental characteristics and structures of household environments of people with visceral leishmaniasis between 2007-2013, in Araçuaí, Minas Gerais, Brazil

Among the 39 residences researched, eight (20.5%) were associated with previous occurrences of the disease in the family.

DISCUSSION

In the city of Araçuaí, VL exhibits a pattern similar to that observed in the literature, with a higher prevalence in children primarily younger than four years and in male individuals (de Araújo et al. 2012de Araújo VEM, Morais MHF, Reis IA, Rabello A, Carneiro M. Early clinical manifestations associated with death from visceral leishmaniasis. PLoS Negl Trop Dis. 2012; 6(2): e1511., Góes et al. 2012Góes MAO, de Melo CM, Jeraldo VLS. Série temporal da leishmaniose visceral em Aracaju, estado de Sergipe, Brasil (1999 a 2008): aspectos humanos e caninos. Rev Bras Epidemiol. 2012; 15(2): 298-307.). The high incidence of the disease in children is due to the fact that their immune systems are not yet fully developed (Missawa & Borba 2009Missawa NA, Borba JF. Leishmaniose visceral no município de Várzea Grande, estado de Mato Grosso, no período de 1998 a 2007. Rev Soc Bras Med Trop. 2009; 42(5): 496-502.). With respect to male individuals, it is believed that the higher incidence is related to hormonal factors present beginning in puberty (Guerra-Silveira & Abad-Franch 2013)Guerra-Silveira F, Abad-Franch F. Sex bias in infectious disease epidemiology: patterns and processes. PLoS ONE. 2013; 8(4): e62390. and behavior, due to a greater exposure in adult men from labor activities (do Prado et al. 2011do Prado PF, Rocha MF, de Sousa JF, Caldeira DI, Paz GF, Dias ES. Aspectos epidemiológicos da leishmaniose visceral humana e canina em Montes Claros, estado de Minas Gerais, Brasil, entre 2007 e 2009. Rev Soc Bras Med Trop. 2011; 44(5): 561-6., Guerra-Silveira & Abad-Franch 2013Guerra-Silveira F, Abad-Franch F. Sex bias in infectious disease epidemiology: patterns and processes. PLoS ONE. 2013; 8(4): e62390., Ortiz & Anversa 2015)Ortiz RC, Anversa L. Epidemiologia da leishmaniose visceral em Bauru, São Paulo, no período de 2004 a 2012: um estudo descritivo. Epidemiol Serv Saude. 2015; 24(1): 97-104..

The lethality of VL in Araçuaí (7.7%) during the period from 2007-2013 was higher than the national average (5.8%) between 2006-2009 (MS/SVS 2011MS/SVS - Ministério da Saúde/Secretaria de Vigilância em Saúde. Leishmaniose visceral: recomendações clínicas para redução da letalidade. Série A. Normas e Manuais Técnicos. Brasília: Ministério da Saúde; 2011. 78 pp.). However, because it is a local study, a single death may have a proportionally greater impact on this rate. Moreover, since the evolution of the case is a data field not required at the national level, these data may be underreported. Of the people infected by VL who died, one had coinfection with HIV, a condition that has been increasingly observed (Barbosa et al. 2013Barbosa IR, Neto RDS, Souza PP, Silva RA, Lima SR, Cruz IDS, et al. Aspectos da coinfecção leishmaniose visceral e HIV no nordeste do Brasil. Rev Baiana Saude Publica. 2013; 37(3): 672-87., Carvalho et al. 2013Carvalho FL, Aires DLS, Segunda ZF, Pedrozo CM, Azevedo S, Corrêa RGCF, et al. Perfil epidemiológico dos indivíduos HIV positivo e coinfecção HIV-Leishmania em um serviço de referência em São Luís, MA, Brasil. Cien Saude Colet. 2013; 18(5): 1305-12., Ortiz & Anversa 2015Ortiz RC, Anversa L. Epidemiologia da leishmaniose visceral em Bauru, São Paulo, no período de 2004 a 2012: um estudo descritivo. Epidemiol Serv Saude. 2015; 24(1): 97-104., Távora et al. 2015)Távora LGF, Nogueira MB, Gomes ST. Visceral leishmaniasis/HIV co-infection in northeast Brazil: evaluation of outcome. Braz J Infect Dis. 2015; 19(6): 651-6. and is one of the causes of reduced survival of patients with this disease (de Sousa-Gomes et al. 2011, dde Sousa-Gomes ML, Maia-Elkhoury ANS, Pelissari DM, Lima Jr FEF, de Sena JM, Cechinel MP. Coinfecção Leishmania-HIV no Brasil: aspectos epidemiológicos, clínicos e laboratoriais. Epidemiol Serv Saude. 2011; 20(4): 519-26., de Albuquerque et al. 2014)de Albuquerque LCP, Mendonça IR, Cardoso PN, Baldaçara LR, Borges MRMM, Borges JC, et al. HIV/AIDS-related visceral leishmaniasis: a clinical and epidemiological description of visceral leishmaniasis in northern Brazil. Rev Soc Bras Med Trop. 2014; 47(1): 38-46..

The urbanisation of VL, found in Araçuaí by the predominance of cases in the central area of the city, as well as the observed negative correlation between NDVI and the density of human and canine cases, has been reported in other Brazilian cities (de Almeida et al. 2014de Almeida AS, Werneck GL, Resendes APC. Classificação orientada a objeto de imagens de sensoriamento remoto em estudos epidemiológicos sobre leishmaniose visceral em área urbana. Cad Saude Publica. 2014; 30(8): 1639-53., Vieira et al. 2014Vieira CP, Oliveira AM, Rodas LAC, Dibo MR, Guirado MM, Chiaravalloti Neto F. Temporal, spatial and spatiotemporal analysis of the occurrence of visceral leishmaniasis in humans in the City of Birigui, state of São Paulo, from 1999 to 2012. Rev Soc Bras Med Trop. 2014; 47(3): 350-8., Ortiz & Anversa 2015Ortiz RC, Anversa L. Epidemiologia da leishmaniose visceral em Bauru, São Paulo, no período de 2004 a 2012: um estudo descritivo. Epidemiol Serv Saude. 2015; 24(1): 97-104.). This pattern is probably due to the success of Lu. longipalpis - already observed in Araçuaí in 2011 (SES-MG, unpublished observations) - in establishing itself in anthropic environments (Carvalho et al. 2010Carvalho GML, Gontijo CMF, Falcão AL, Andrade Filho JD. Study of phlebotomine sand flies (Diptera: Psychodidae) collected in a Leishmania-endemic area of the metropolitan region of Belo Horizonte, Brazil. J Med Entomol. 2010; 47(6): 972-6., Saraiva et al. 2011Saraiva L, Andrade Filho JD, Falcão AL, de Carvalho DA, de Souza CM, Freitas CR, et al. Phlebotominae fauna (Diptera: Psychodidae) in an urban district of Belo Horizonte, Brazil, endemic for visceral Leishmaniasis: characterization of favored locations as determined by spatial analysis. Acta Trop. 2011; 117(2): 137-45., Brazil 2013Brazil RP. The dispersion of Lutzomyia longipalpis in urban areas. Rev Soc Bras Med Trop. 2013; 46(3): 263-4., Salomón et al. 2015)Salomón OD, Feliciangeli MD, Quintana MG, Afonso MMS, Rangel EF. Lutzomyia longipalpis urbanisation and control. Mem Inst Oswaldo Cruz. 2015; 110(7): 831-46., where there is a presence of domestic reservoirs and susceptible hosts.

The spatial overlap of cases of human and canine infection by L. infantum was already described in other locations (Margonari et al. 2006Margonari C, Freitas CR, Ribeiro RC, Moura ACM, Timbó M, Gripp AH, et al. Epidemiology of visceral leishmaniasis through spatial analysis in Belo Horizonte municipality, state of Minas Gerais, Brazil. Mem Inst Oswaldo Cruz. 2006; 101(1): 31-8., Teixeira-Neto et al. 2014Teixeira-Neto RG, da Silva ES, Nascimento RA, Belo VS, de Oliveira CDL, Pinheiro LC, et al. Canine visceral leishmaniasis in an urban setting of southeastern Brazil: an ecological study involving spatial analysis. Parasit Vectors. 2014; 7: 485.). However, besides this overlap, a strong correlation between the densities of human and canine infections was observed in this study, evidencing the importance of dogs in the occurrence of VL in this city. In this sense, the large number of dogs found in households of individuals who had VL in previous years highlights the need to maintain surveillance in these areas. The substitution of infected dogs that were eliminated for other susceptible ones allows these areas to continue to maintain the transmission cycle of L. infantum (Andrade et al. 2007Andrade AM, Queiroz LH, Nunes GR, Perri SHV, Nunes CM. Reposição de cães em área endêmica para leishmaniose visceral. Rev Soc Bras Med Trop. 2007; 40(5): 594-5.).

The majority of sites of VL occurrence in the city showed deficiencies in sanitation infrastructure and crowded populations in poor living conditions with a large quantity of animals and organic material from shrubs, fruit trees, waste and garbage. Such conditions favor the maintenance of reservoirs in the areas surrounding homes and the proliferation of vectors (Bigeli et al. 2012Bigeli JG, Oliveira Jr WP, Teles NMM. Diagnosis of Leishmania (Leishmania) chagasi infection in dogs and the relationship with environmental and sanitary aspects in the municipality of Palmas, state of Tocantins, Brazil. Rev Soc Bras Med Trop. 2012; 45(1): 18-23., da Silva et al. 2012da Silva JP, Werneck GL, Macedo EC, de Carvalho H, Cruz MSP. Factors associated with Leishmania chagasi infection in domestic dogs from Teresina, state of Piauí, Brazil. Rev Soc Bras Med Trop. 2012; 45(4): 480-4., Jeraldo et al. 2012Jeraldo VLS, Góes MAO, Casanova C, de Melo CM, de Araújo ED, Brandão Filho SP, et al. Fauna flebotomínica em área endêmica de leishmaniose visceral em Aracaju, estado de Sergipe, nordeste do Brasil. Rev Soc Bras Med Trop. 2012; 45(3): 318-22., Barata et al. 2013Barata RA, Peixoto JC, Tanure A, Gomes ME, Apolinário EC, Bodevan EC, et al. Epidemiology of visceral leishmaniasis in a reemerging focus of intense transmission in Minas Gerais state, Brazil. Biomed Res Int. 2013; 2013: 1-6., Belo et al. 2013Belo VS, Werneck GL, Barbosa DS, Simões TC, Nascimento BWL, Silva ES, et al. Factors associated with visceral leishmaniasis in the Americas: a systematic review and meta-analysis. PLoS Negl Trop Dis. 2013; 7(4): e2182., Costa et al. 2013Costa PL, Dantas-Torres F, da Silva FJ, Guimarães VCFV, Gaudêncio K, Brandão-Filho SP. Ecology of Lutzomyia longipalpis in an area of visceral leishmaniasis transmission in north-eastern Brazil. Acta Trop. 2013; 126(2): 99-102., Coura-Vital et al. 2013Coura-Vital W, Reis AB, Reis LES, Braga SL, Roatt BM, Aguiar-Soares RDO, et al. Canine visceral leishmaniasis: incidence and risk factors for infection in a cohort study in Brazil. Vet Parasitol. 2013; 197(3-4): 411-7., Vieira et al. 2014Vieira CP, Oliveira AM, Rodas LAC, Dibo MR, Guirado MM, Chiaravalloti Neto F. Temporal, spatial and spatiotemporal analysis of the occurrence of visceral leishmaniasis in humans in the City of Birigui, state of São Paulo, from 1999 to 2012. Rev Soc Bras Med Trop. 2014; 47(3): 350-8., Pimentel et al. 2015Pimentel DS, Ramos RAN, Santana MA, Maia CS, de Carvalho GA, da Silva HP, et al. Prevalence of zoonotic visceral leishmaniasis in dogs in an endemic area of Brazil. Rev Soc Bras Med Trop. 2015; 48(4): 491-3., Tanure et al. 2015Tanure A, Peixoto JC, Afonso MMS, Duarte R, Pinheiro AC, Coelho SVB, et al. Identification of sandflies (Diptera: Psychodidae: Phlebotominae) blood meals in an endemic leishmaniasis area in Brazil. Rev Inst Med Trop São Paulo. 2015; 57(4): 321-4.).

Another relevant aspect to the epidemiology of VL is the level of education, which influences quality of life and health promotion by increasing the chance of greater access to information (Lima et al. 2010Lima AMA, Alves LC, Faustino MAG, de Lira NMS. Percepção sobre o conhecimento e profilaxia das zoonoses e posse responsável em pais de alunos do pré-escolar de escolas situadas na comunidade localizada no bairro de Dois Irmãos na cidade do Recife (PE). Cien Saude Colet. 2010; 15(1): 1457-64.). In this study, VL mainly affected children living with heads of household who had completed only partial primary education. This, in addition to low income, may be associated with a higher incidence of disease among socially vulnerable populations (de Almeida et al. 2011de Almeida AS, Medronho RA, Werneck GL. Identification of risk areas for visceral leishmaniasis in Teresina, Piauí state, Brazil. Am J Trop Med Hyg. 2011; 84(5): 681-7., de Araújo et al. 2013de Araújo VEM, Pinheiro LC, Almeida MCM, de Menezes FC, Morais MHF, Reis IA, et al. Relative risk of visceral leishmaniasis in Brazil: a spatial analysis in urban area. PLoS Negl Trop Dis. 2013; 7(11): e2540., Ortiz & Anversa 2015Ortiz RC, Anversa L. Epidemiologia da leishmaniose visceral em Bauru, São Paulo, no período de 2004 a 2012: um estudo descritivo. Epidemiol Serv Saude. 2015; 24(1): 97-104.). On the other hand, with the expansion of VL in urban areas, people and animals belonging to the middle and upper classes have also been infected, although to a lesser extent (de Almeida et al. 2010de Almeida ABPF, Mendonça AJ, Sousa VRF. Prevalência e epidemiologia da leishmaniose visceral em cães e humanos, na cidade de Cuiabá, Mato Grosso, Brasil. Cienc Rural. 2010; 40(7): 1610-5., Ortiz & Anversa 2015)Ortiz RC, Anversa L. Epidemiologia da leishmaniose visceral em Bauru, São Paulo, no período de 2004 a 2012: um estudo descritivo. Epidemiol Serv Saude. 2015; 24(1): 97-104..

The fact that some people affected by VL have mentioned previous cases of the disease in the family probably indicates that they were exposed to the same risk factors. Therefore, it is necessary to invest in integrated programs for urban infrastructure, environmental management, vector and reservoir control, as well as promoting health education in areas where VL occurs, in order to ensure continued disease surveillance.

In recent years, VL has continued to expand into urban areas and a greater diversification of its epidemiological characteristics has been observed (Ortiz & Anversa 2015Ortiz RC, Anversa L. Epidemiologia da leishmaniose visceral em Bauru, São Paulo, no período de 2004 a 2012: um estudo descritivo. Epidemiol Serv Saude. 2015; 24(1): 97-104.). In this context, local studies that integrate epidemiological data with spatial analysis tools help to understand the particularities of disease transmission dynamics, as well as assist in the definition of priority areas for the planning by competent agencies to reduce the incidence of infection.

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Financial support: PRPPG/UFVJM.

Publication Dates

Publication in this collection
04 July 2016
Date of issue
Aug 2016

History

Received
31 Mar 2016
Accepted
7 June 2016

This is an Open Access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

[1] Alvar J, Vélez ID, Bern C, Herrero M, Desjeux P, Cano J, et al. Leishmaniasis worldwide and global estimates of its incidence. PLoS ONE. 2012; 7(5): e35671.

[2] Andrade AM, Queiroz LH, Nunes GR, Perri SHV, Nunes CM. Reposição de cães em área endêmica para leishmaniose visceral. Rev Soc Bras Med Trop. 2007; 40(5): 594-5.

[3] Ayres M, Ayres Jr M, Ayres DL, Santos AAS. Bioestat 5.0. Aplicações estatísticas nas áreas das ciências biomédicas. Version 5.0 [software]. 2007 Jan 15 [cited 2016 Feb 10]. Available from: http://www.mamiraua.org.br/pt-br/downloads/programas/bioestat-versao-53/
» http://www.mamiraua.org.br/pt-br/downloads/programas/bioestat-versao-53/

[4] Barata RA, Peixoto JC, Tanure A, Gomes ME, Apolinário EC, Bodevan EC, et al. Epidemiology of visceral leishmaniasis in a reemerging focus of intense transmission in Minas Gerais state, Brazil. Biomed Res Int. 2013; 2013: 1-6.

[5] Barbosa DS, Belo VS, Rangel MES, Werneck GL. Spatial analysis for identification of priority areas for surveillance and control in a visceral leishmaniasis endemic area in Brazil. Acta Trop. 2014; 131: 56-62.

[6] Barbosa IR, Neto RDS, Souza PP, Silva RA, Lima SR, Cruz IDS, et al. Aspectos da coinfecção leishmaniose visceral e HIV no nordeste do Brasil. Rev Baiana Saude Publica. 2013; 37(3): 672-87.

[7] Belo VS, Werneck GL, Barbosa DS, Simões TC, Nascimento BWL, Silva ES, et al. Factors associated with visceral leishmaniasis in the Americas: a systematic review and meta-analysis. PLoS Negl Trop Dis. 2013; 7(4): e2182.

[8] Bigeli JG, Oliveira Jr WP, Teles NMM. Diagnosis of Leishmania (Leishmania) chagasi infection in dogs and the relationship with environmental and sanitary aspects in the municipality of Palmas, state of Tocantins, Brazil. Rev Soc Bras Med Trop. 2012; 45(1): 18-23.

[9] Borges LFNM, Lopes EGP, Freitas ACP, Silva MX, Haddad JPA, Silva JA, et al. Prevalência e distribuição espacial da leishmaniose visceral em cães do município de Juatuba, Minas Gerais, Brasil. Cienc Rural. 2014; 44(2): 352-7.

[10] Brazil RP. The dispersion of Lutzomyia longipalpis in urban areas. Rev Soc Bras Med Trop. 2013; 46(3): 263-4.

[11] Câmara G, Souza RCM, Freitas UM, Garrido J. SPRING: integrating remote sensing and GIS by object-oriented data modelling. Comput Graphics. 1996; 20(3): 395-403.

[12] Cardim MFM, Rodas LAC, Dibo MR, Guirado MM, Oliveira AM, Chiaravalloti-Neto F. Introdução e expansão da Leishmaniose visceral americana em humanos no estado de São Paulo, 1999-2011. Rev Saude Publica. 2013; 47(4): 691-700.

[13] Carneiro M, Morais MHF, Araújo VEM, Menezes FC, Fiuza VOP, Assunção RM, et al. Avaliação e aperfeiçoamento de sistema de informação sobre o Programa de Controle da Leishmaniose Visceral e estudo de fatores associados à infecção e ao óbito em Belo Horizonte, Minas Gerais, Brasil. Gerais: Rev Saude Publica SUS/MG. 2013; 1(1): 65-6.

[14] Carvalho FL, Aires DLS, Segunda ZF, Pedrozo CM, Azevedo S, Corrêa RGCF, et al. Perfil epidemiológico dos indivíduos HIV positivo e coinfecção HIV-Leishmania em um serviço de referência em São Luís, MA, Brasil. Cien Saude Colet. 2013; 18(5): 1305-12.

[15] Carvalho GML, Gontijo CMF, Falcão AL, Andrade Filho JD. Study of phlebotomine sand flies (Diptera: Psychodidae) collected in a Leishmania-endemic area of the metropolitan region of Belo Horizonte, Brazil. J Med Entomol. 2010; 47(6): 972-6.

[16] Costa PL, Dantas-Torres F, da Silva FJ, Guimarães VCFV, Gaudêncio K, Brandão-Filho SP. Ecology of Lutzomyia longipalpis in an area of visceral leishmaniasis transmission in north-eastern Brazil. Acta Trop. 2013; 126(2): 99-102.

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Variables		Year							Total (%) (n = 39)

		2007 (n = 6)	2008 (n = 3)	2009 (n = 3)	2010 (n = 6)	2011 (n = 7)	2012 (n = 7)	2013 (n = 7)
Sex	Male	4	2	2	4	4	7	5	28 (71,8%)
Sex	Female	2	1	1	2	3	0	2	11 (28,2%)
Age (year)	0 - 04	3	1	2	1	0	1	4	12 (30,8%)
	04 - 10	2	0	1	1	0	1	2	7 (17,9%)
	10 - 20	0	1	0	2	1	3	0	7 (17,9%)
	20 - 39	0	1	0	1	1	2	0	5 (12,8%)
	39 - 60	1	0	0	1	2	0	0	4 (10,3%)
	> 60	0	0	0	0	3	0	1	4 (10,3%)
Zone of residence	Urban	5	2	1	5	2	4	6	25 (64,1%)
Zone of residence	Rural	1	1	2	1	5	3	1	14 (35,9%)

Variables	Categories	(n)	(%)
Piped water	Absent	7	18.0
Piped water	Present	32	82.0
Water and waste disposal	Open air	2	5.1
	Septic tank (Latrines)	26	66.7
	Sewer system	11	28.2
Home water storage	Covered water tank	23	59.0
	Uncovered water tank	6	15.4
	Cistern	4	10.2
	Containers	6	15.4
Number of residents in household	≥ 01 ≤03	9	23.1
	≥ 04 ≤ 06	23	59.0
	> 06	7	17.9
Distance to nearest neighbor	≤ 01metre	5	12.8
	> 01 ≤ 05 metres	23	59.0
	> 05 metres	11	28.2
Number of houses surrounding the investigated residence in a radius of 300 m	0	3	7.7
	≥ 01 ≤ 10	9	23.1
	≥ 11 ≤ 50	14	35.9
	> 50	13	33.3
Observation of gardens or backyard	Accumulated trash	4	10.5
	Shrubs	27	71.1
	Fruit trees	33	86.8
	Ornamental trees	2	5.3
	Garden absent	1	2.6
Frequency with which gardens and yards were cleaned	Daily	13	34.2
	Once per week	22	57.9
	Twice per month	3	7.9
Trash disposal	Collected once per week	5	12.8
	Collected twice per week	6	15.4
	Collected three times per week	16	41.0
	Disposed of outside	10	25.6
	Buried or burnt	1	5.2
Proximity to forest	No forest nearby	6	15.4
	100 to 200 metres	31	79.5
	200 to 500 metres	2	5.1
Presence of domestic animals	Dogs	32	82.0
	Cats	20	51.3
	Birds	33	84.6
	Pigs	18	46.2
	Horses	14	35.9
	Cattle	11	28.2
Education level of head of household	No schooling	5	12.8
	Incomplete primary education	29	74.3
	Complete primary education	3	7.7
	Complete high school	1	2.6
	Graduation	1	2.6