Print version ISSN 0037-8682
Rev. Soc. Bras. Med. Trop. vol.45 no.4 Uberaba July/Aug. 2012 Epub July 26, 2012
Leishmaniose cutânea no nordeste do Brasil: uma avaliação crítica dos estudos realizados no Estado de Pernambuco
Maria Edileuza Felinto de BritoI,II; Maria Sandra AndradeIII; Filipe Dantas-TorresI,IV; Eduardo Henrique Gomes RodriguesI; Milena de Paiva CavalcantiI; Alzira Maria Paiva de AlmeidaI; Sinval Pinto Brandão-FilhoI
ICentro de Pesquisas Aggeu Magalhães, Fundação Oswaldo Cruz, Recife, PE
IIPós-Graduação em Ciências Biológicas, Universidade Federal de Pernambuco, Recife, PE
IIIDepartamento de Enfermagem, Universidade de Pernambuco, Recife, PE
IVDepartamento de Saúde Pública Veterinária e Zootecnia, Universidade de Bari, Valenzano, Itália
American cutaneous leishmaniasis (ACL) is a complex disease with clinical and epidemiological features that may vary from region to region. In fact, at least seven different Leishmania species, including Leishmania (Viannia) braziliensis, Leishmania (Viannia) guyanensis, Leishmania (Viannia) lainsoni, Leishmania (Viannia) naiffi, Leishmania (Viannia) shawi, Leishmania (Viannia) lindenbergi, and Leishmania (Leishmania) amazonensis, have been implicated in the etiology of ACL in Brazil, and numerous phlebotomine sandfly species of the genus Lutzomyia have been regarded as putative or proven vectors. Because ACL is a focal disease, understanding the disease dynamics at the local level is essential for the implementation of more effective control measures. The present paper is a narrative review about the ACL epidemiology in Pernambuco, northeastern Brazil. Furthermore, the need for more effective diagnosis, treatment, control and prevention strategies for the affected populations is highlighted. This paper will provide researchers with a critical appraisal of ACL in Pernambuco. Hopefully, it will also be helpful for public health authorities to improve current control strategies against ACL at the state and country levels.
Keywords: Cutaneous leishmaniasis. Leishmania braziliensis. Reservoirs. Insect vectors. Diagnosis. Epidemiology.
A leishmaniose cutânea americana (LCA) é uma doença complexa com características clínicas e epidemiológicas que podem variar de região para região. De fato, pelo menos, sete diferentes espécies de Leishmania, incluindo Leishmania (Viannia) braziliensis, Leishmania (Viannia) guyanensis, Leishmania (Viannia) lainsoni, Leishmania (Viannia) naiffi, Leishmania (Viannia) shawi, Leishmania (Viannia) lindenbergi e Leishmania (Leishmania) amazonensis, têm sido incriminadas na etiologia da LCA no Brasil, e numerosas espécies de flebotomíneos do gênero Lutzomyia, foram considerados vetores suspeitos ou comprovados. Devido ao seu caráter focal, a compreensão da dinâmica da LCA a nível local é imprescindível para a implementação de medidas de controle eficazes. Este trabalho consiste de uma revisão narrativa sobre a epidemiologia da LCA em Pernambuco, nordeste do Brasil. Além disso, se enfatiza a necessidade de maior efetividade no diagnóstico, tratamento, controle e estratégias de prevenção para as populações afetadas. Este artigo fornecerá aos pesquisadores uma avaliação crítica da LCA em Pernambuco. Espera-se também contribuir com as autoridades de saúde pública no aprimoramento das estratégias atuais de controle da LCA nos níveis estaduais e nacional.
Palavras-chaves: Leishmaniose cutânea. Leishmania braziliensis. Reservatórios. Insetos vetores. Diagnóstico. Epidemiologia.
American cutaneous leishmaniasis (ACL) is a complex disease with clinical and epidemiological features that may vary from region to region1. Because ACL is a focal disease, understanding the disease dynamics at the local level is essential for the implementation of more effective control measures.
In Brazil, ACL presents variable epidemiological patterns, which may vary according to the phlebotomine sandfly species involved in transmission, population susceptibility and the level of exposure as well as the diversity and competence of reservoir hosts.
A number of studies on ACL in Pernambuco State, northeastern Brazil, have been performed in the past decades and have contributed enormously to the knowledge of ACL ecoepidemiology at the state and country levels2-7. In particular, the importance of small terrestrial mammals in the transmission chain of Leishmania (Viannia) braziliensis7, the most widespread etiological agent of ACL in Brazil, has been demonstrated.
This paper is a narrative review regarding the ACL epidemiology in Pernambuco. Articles were searched in electronic databases (i.e., Medline, Lilacs and SciELO) using the following search terms: leishmaniasis, mucocutaneous leishmaniasis, tegumentary leishmaniasis, Leishmania, Lutzomyia, and Pernambuco. Search terms were used alone or in combination and with no language or release date restriction (as of January 2012). Studies investigating the epidemiology, diagnosis, etiology, reservoirs and vectors of ACL were included whereas those exclusively focusing on visceral leishmaniasis were excluded. Additionally, references of retrieved articles were searched for relevant papers that could not have been located in the searched databases. The importance of control and prevention strategies for the affected populations and the need for effective diagnostic tools and treatment procedures are discussed. This paper will provide researchers with a critical appraisal of ACL in Pernambuco. Hopefully, it will also be helpful for public health authorities to improve current control strategies against ACL at the state and country levels.
DIVERSITY OF ETIOLOGICAL AGENTS
Seven species of Leishmania have been implicated as ACL agents in Brazil: Leishmania (Viannia) braziliensis, Leishmania (Viannia) guyanensis, Leishmania (Viannia) lainsoni, Leishmania (Viannia) naiffi, Leishmania (Viannia) shawi, Leishmania (Viannia) lindenberg, and Leishmania (Leishmania) amazonensis8. However, L. (V.) braziliensis is the main ACL etiological agent in Pernambuco and other Brazilian states1,4,9-11.
In a study conducted in Amaraji and Cortes (two municipalities from the southern Atlantic Forest region) (Figure 1) in 1991, two strains isolated from humans and characterized with multilocus enzyme electrophoresis (MLEE) exhibited an enzymatic profile similar to L. (V.) braziliensis stricto sensu, except for the enzymes isocitrate dehydrogenase-nicotinamide adenine dinucleotide phosphate (IDH-NADP) and phosphoglucomutase (PMG), which were different from the reference strain MHOM/BR/75/M2903. These strains were grouped as a new zymodeme IOC-Z45, a variant of the species12.
Between 1996 and 2000, in a longitudinal study conducted in Raiz de Dentro, Refrigério and Tranquilidade from Amaraji, 30 strains were isolated from patients presenting predominantly single ulcerated lesions. These strains were placed into serodeme 1 with monoclonal antibodies. Through MLEE, they were all identified as L. (V.) braziliensis, although some of them showed different electrophoretic mobility profiles (electromorphs) for the PGM, IDH-NADP and malic enzyme (ME) and were grouped into four new zymodemes: IOC-Z72, IOC-Z73, IOC-Z74, and IOC-Z7510.
Another study in three different areas in Pernambuco (Amaraji (southern Atlantic Forest), Paudalho (northern Atlantic Forest region), and Moreno (metropolitan region of Recife) (Figure 1) was performed in 2009. Sixty-seven samples isolated from patients with different ACL clinical forms were identified as L. ( V. ) braziliensis serodeme 1 with monoclonal antibodies. Through MLEE, 10 different zymodemes (IOC-Z26, IOC-Z27, IOC-Z45, IOC-Z72, IOC-Z73, IOC-Z74, IOC-Z75, IOC-Z78, IOC-Z105, and IOC-Z106) were found (Figure 1). Most of these zymodemes were classified9,10. It should be noted that this was the first report of L. (V.) shawi in Pernambuco.
In a study performed in 2008 in Mundo Novo, a rural community in São Vicente Férrer, a municipality of the Agreste region (scrub region) (Figure 1) where visceral leishmaniasis has sporadically been diagnosed in dogs and humans, 20 dogs were found to be positive for L. (V.) braziliensis with polymerase chain reaction (PCR). This finding revealed a high exposure level to Leishmania spp. in dogs in this area11 and suggested that dogs might eventually be infected with L. (V.) braziliensis.
These findings strongly indicate that the transmission cycle complexity and the co-existence of two or more species circulating in the same area may be reflected in the genetic polymorphism of this Leishmania population. A recent study suggested that the parasite's genetic diversity may be associated with particular transmission cycles, most likely reflecting the adaptation of different parasite clones to distinct vector species12.
OCCURRENCE AND DISTRIBUTION OF VECTORS
During the 1940s, studies on phlebotomine sandflies in northeastern Brazil reported the occurrence of Lutzomyia fischeri, Lutzomyia evandroi, Lutzomyia squamiventris, and Lutzomyia migonei in the Atlantic Forest region of Pernambuco13. Since then, approximately 37 sandfly species have been identified in this state14.
From 1979-1980, a study was performed in Igarassu (northern Atlantic Forest region), and Lutzomyia whitmani was the most abundant species15. In another study conducted in Amaraji, one of the major ACL foci in Pernambuco, eight species were identified, but again, L. whitmani was predominant in domestic and peridomestic areas. Furthermore, this sandfly was found to be naturally infected by L. (V.) braziliensis4,16. Other studies have confirmed that L. whitmani is adapted to the domestic environment and can also be found indoors in Amaraji16. Moreover, this species is highly anthropophilic17, which partly explains the high prevalence of ACL in this area. A more recent investigation in the municipality of Moreno also revealed the predominance of L. whitmani6. Undoubtedly, L. whitmani is the most important vector of L. (V.) braziliensis in Pernambuco.
A recent survey performed in São Vicente Férrer demonstrated that in contrast with Igarassu and Amaraji, L. migonei was the predominant species in domestic and peridomestic environments, whereas Lutzomyia complexa and Lutzomyia sordellii were predominant in forest remnants18. Similarly, a study conducted in a military training area in Paudalho reported a high diversity of phlebotomine sandflies, with the predominance of Lutzomyia complexa and Lutzomyia choti3,5. In contrast, in a large study in an Atlantic Forest reserve located in Recife, the most abundant species was Lutzomyia umbratilis19. This sandfly is a vector of L. (V.) guyanensis, whose presence in Pernambuco is uncertain.
The phlebotomine sandfly fauna of Pernambuco is rich. However, L. whitmani is predominant in most of the ACL transmission foci, mainly in domestic and peridomestic areas, whereas L. complexa or other species prevail in wild environments5. Compared with other northeastern Brazilian states, the phlebotomine sandfly fauna of Pernambuco is more diverse than Alagoas, Ceará, Paraíba, Piauí, Rio Grande do Norte, and Sergipe but not Maranhão and Bahia13. The high abundance and widespread distribution of phlebotomine sandfly vectors in Pernambuco indicate that most of the population is exposed to Leishmania spp. infection.
WILD AND SYNANTHROPIC RESERVOIR HOSTS
Leishmania (V.) braziliensis has been detected in several wild and synanthropic rodents of the genera Akodon20, Proechimys21, Rattus2,22, Oryzomys2,23,24, Rhipidomys25, Nectomys and Necromys2 and marsupials of the genus Didelphis2,21. In most cases, the isolates from these animals have neither been properly identified nor characterized; the identification was typically based on morphological characteristics and the behavior of the parasites in culture only.
A pioneering study targeting small mammals as probable L. (V.) braziliensis reservoirs in Pernambuco was conducted in Amaraji, and a total of 407 rodents and 71 marsupials were trapped and analyzed. Remarkably, amastigotes in liver and spleen imprints consistent with Leishmania spp. were found in specimens of Nectomys squamipes (n=5) , Necromys (syn. Bolomys) lasiurus (n=5), and Rattus rattus2. Another study in the same area presented evidence of Leishmania infection in several rodent species. Five L. (V.) braziliensis isolates from N. lasiurus and one from R. rattus were identified and characterized, and different zymodemes were identified7. It is noteworthy that the zymodeme IOC-Z74 was isolated from human patient samples, sentinel hamsters, vectors and both wild and synanthropic rodents, suggesting that this is the predominant zymodeme in the region7,10. Considering the difficulties related to the cultivation, isolation and maintenance of L. (V.) braziliensis parasites, these results represented an important achievement26. Similarly, a study in São Vicente Férrer also provided evidence of Leishmania infection in N. squamipes, R. rattus, and Holochilus sciureus27 with PCR.
Usually, these animals display no visible lesions consistent with ACL despite being parasitized, suggesting that the Leishmania parasites in their primitive form have adapted to these hosts22. Therefore, these animals have the potential to act as long-term maintainers of L. (V.) braziliensis in nature7. The identification of N. squamipes, N. lasiurus and R. rattus hosting L. (V.) braziliensis represents a major contribution to the knowledge of the epidemiology of ACL in Brazil and allows for a better understanding of the role of these species as reservoirs of this important parasite7.
Although serological and/or molecular evidence of Leishmania (V.) braziliensis in domestic dogs from ACL endemic areas have been reported2,11, further research is necessary to ascertain the role of these animals in the ACL transmission chain in Pernambuco.
AMERICAN CUTANEOUS LEISHMANIASIS IN HUMAN POPULATIONS
From a historical perspective, the first ACL cases recorded in Pernambuco date back to the 1930s, when the disease was detected in rural workers from the Atlantic Forest region28,29.
From 1989 to 1991, 1.604 cases were reported to the Ministério da Saúde (MS), most (64.2%) of which were detected in the Atlantic Forest region2, particularly in the municipalities of Amaraji and Cortês. In the beginning of the 1990s, an active search for ACL cases in this area identified 127 human cases2. Subsequent studies showed a 10-fold increase in ACL over a 10-year period in the region4. From an epidemiological standpoint, the infection was more prevalent in adult males (but was also recorded in females) and children, eventually affecting all of the members of the same family4.
In 1996, an outbreak of ACL occurred in a military training camp (Campo de Instrução Marechal Newton Cavalcanti - CIMNC, Paudalho) in a region of somewhat preserved Atlantic Forest, affecting 26 trainee soldiers. An epidemiological investigation in this area detected a 24.1% infection prevalence in that population3. From 1996 to 2010, 197 ACL cases were diagnosed among trainee soldiers from CIMNC; an average of 16 cases per year. Therefore, it was concluded that a primary enzootic cycle was established in this area with a somewhat defined fluctuation of cases, with sporadic outbreaks followed by low-occurrence periods5,30.
In 2010, 25 ACL cases were registered in an outbreak in Igarassu, and an active search detected 49 additional cases in the region31. The diagnosis was mostly based on the presence of skin lesions in conjunction with the microscopic detection of amastigotes in skin samples and/or a positive Montenegro skin test. Most patients presented with typical localized lesions. Different age classes (>10 years) and both sexes were affected, although most of the patients were males31.
Using the Montenegro skin test, a study conducted in Moreno reported a 30% positivity in a population of 481 individuals. The positivity was higher among males and among individuals aged 11 to 30 years. Interestingly, 67% of the positive individuals had no previous ACL history6.
From 2001 to 2010, 4.855 ACL cases were recorded in Pernambuco, with an average of 485 cases per year32. In fact, ACL is endemic in all of the geographical regions of Pernambuco, and outbreaks are sporadically detected in the Agreste and Atlantic Forest regions4. Although the highest prevalence of ACL is still recorded in the Atlantic Forest region7, the disease is spreading to other areas, and the incidence is increasing in the entire state. Importantly, most of the affected people live in poor villages in rural areas and are permanently exposed to the disease risk factors, typically for occupational reasons, as observed in other Brazilian regions33.
AMERICAN CUTANEOUS LEISHMANIASIS DIAGNOSIS
The routine diagnosis of ACL in Pernambuco, particularly in rural areas, is based on clinical and epidemiological criteria. In Recife, the state's capital, both traditional (e.g., cytology) and modern techniques (e.g., PCR) are available in reference hospitals and research centers.
A study performed in 2000 on the antibody response of patients from an endemic ACL area with immunoblotting using antigenic L. (V.) braziliensis fractions identified the 27 and/or 30 kDa soluble antigens, which were considered promising for ACL diagnosis34. Immunoblotting was more sensitive (91%) and specific (100%) than the indirect immunofluorescence antibody test (IFAT) and enzyme-linked immunosorbent assay (ELISA). In 2001, the same antigenic fractions were employed to analyze the antibody response level in patients before and after treatment35. Because the levels of these antigens were decreased approximately twofold in clinically recovered patients, it was concluded that they may be used as markers of healing or parasite persistence in human patients.
The introduction of molecular biology techniques has greatly improved the diagnosis of ACL in Pernambuco and elsewhere in Brazil. Two specific systems for the subgenera Viannia and Leishmania have been assessed, revealing 95.5% and 88.2% sensitivity, respectively, and 100% specificity for healthy individual samples36. Indeed, PCR-based methods are significantly more sensitive than the conventional tests, such as direct examination, histopathological examination and skin sample culture.
Polymerase chain reaction, culture and histopathological examination were also compared in 32 samples from clinically cured ACL patients after chemotherapy. Leishmania (Viannia) sp. Deoxyribonucleic acid (DNA) was detected in 93.7% of the patients, and three strains were identified through culture. In the histopathological examination, no parasite was found. However, fibroblastic changes were present in all of the cases, with an inflammatory focus observed in four cases, suggesting the persistence of parasites in these patients after chemotherapy37. This result was confirmed by the parasite isolation from (n=3) individuals' scars 5 years after clinical cure37.
In a study involving 19 patients with lesions compatible with ACL from different localities of Pernambuco, 89% of them were positive with the Montenegro skin test, 79% with IFAT, 58% with skin cytology and 75% with PCR38. These results clearly illustrate the importance of combining different diagnostic techniques to improve the detection level.
FINAL COMMENTS AND CONCLUSIONS
Many ecoepidemiological aspects of ACL in Pernambuco have been characterized in recent years as an important contribution to the understanding of the infection prevalence and disease expression. Moreover, the characterization of vectors and reservoir hosts involved in the transmission and maintenance of L. (V.) braziliensis in this region has also been assessed.
Leishmania (V.) braziliensis is the main etiological agent of ACL in Pernambuco, where 10 or more variants circulate. Phlebotomine sandfly vectors are widely distributed over the state's territory, with the predominance of L. whitmani in domestic and peridomestic areas and L. complexa in forest remnants in most ACL foci. Concerning L. ( V .) braziliensis reservoirs, N. squamipes, N. lasiurus and R. rattus have been suggested as possible parasite maintainers in natural transmission cycles, but further transmission studies are needed to better understand their role. For instance, R. rattus, originally from Europe, established as synanthropic animals throughout Brazil and now it can be found both in human dwellings and in the fields. On the other hand, from an evolutionary viewpoint, its relationship with L. (V.) braziliensis is recent and it is unknown to what extent this imported rodent has adapted to this native parasite and vice versa.
The Atlantic Forest region is responsible for more than 60% of all of the ACL cases reported in Pernambuco, which emphasizes the need to establish and strengthen preventive and control measures against the disease in this region. Nonetheless, it is also important to promote continuous education for physicians and the capacity of public health professionals working in newly detected ACL foci to speed diagnostic and treatment procedures in these areas.
The diversity of Leishmania species or variants found in vertebrate hosts and vectors reflects the complexity of ACL in Pernambuco, which makes the design and implementation of control programs for this endemic disease a challenge for public health authorities. It is expected that this paper will provide public health authorities with essential information on ACL in this Brazilian state, which may be helpful for designing more effective control programs. Current control strategies have not been sufficient to stop or even reduce the disease burden.
Thanks to José Ferreira Marinho-Junior for his technical assistance.
CONFLICT OF INTEREST
The authors declare that there is no conflict of interest.
1. Marzochi MCA. Leishmanioses no Brasil: As leishmanioses tegumentares. J Bras Med 1992;63:82-104. [ Links ]
2. Brandão-Filho SP, Carvalho FG, Brito MEF, Almeida FA, Nascimento LA. American cutaneous leishmaniasis in Pernambuco Brazil: Eco-epidemiological aspects in "Zona da Mata" Region. Mem Inst Oswaldo Cruz 1994;89:445-449. [ Links ]
3. Brandão-Filho SP, Brito MEF, Martins CA, Sommer IB, Valença HF, Almeida FA, et al. Leishmaniose tegumentar americana em centro de treinamento militar localizado na Zona da Mata de Pernambuco, Brasil. Rev Soc Bras Med Trop 1998;31:575-578. [ Links ]
4. Brandão-Filho SP, Campbell-Lendrum DH, Brito MEF, Shaw JJ, Davies CR. Epidemiological surveys confirm an increasing burden of cutaneous leishmaniasis in north-east Brazil. Trans R Soc Trop Med Hyg 1999;93:488-494. [ Links ]
5. Andrade MS, Brito MEF, Silva ST, Lima BS, Almeida EL, Albuquerque EL, et al. American tegumentary leishmaniasis caused by Leishmania (Viannia) braziliensis in military training área Zona da Mata in Pernambuco. Rev Soc Bras Med Trop 2005;38:229-233. [ Links ]
6. Brito MEF, Silva CJ, Silva CM, Salazar PR, Coutinho JS, Reis LC, et al. Clinical epidemiological profile of American tegumentary leishmaniasis at the Pinto Sugar Mill in Moreno Municipality, Greater Metropolitan Recife, Pernambuco State, Brazil. Cad Saude Publica 2008;10:2445-2448. [ Links ]
7. Brandão-Filho SP, Brito MEF, Carvalho FG, Ishikawa E, Cupolilo E, Floeter Winter LM, et al. Wild and synanthropic hosts of Leishmania (Viannia) braziliensis in the endemic cutaneous leishmaniasis locality of Amaraji, Pernambuco State, Brazil. Trans R Soc Trop Med Hyg 2003;97:291-296. [ Links ]
8. Lainson R, Shaw J. Evolution, classification and geographical distribution. In: Peters W, Killick-Kendrick R, editors. The Leishmaniasis in Biology and Medicine, Biology and Epidemiology. London: Academic Press; 1987. p. 1-120. [ Links ]
9. Brito MEF, Brandão-Filho SP, Salles NR, Cupolillo E, Grimaldi Jr G, Momen H. Human cutaneous leishmaniasis due to a new enzymatic variant of Leishmania (Viannia) braziliensis occurring in Pernambuco, Brazil. Mem Inst Oswaldo Cruz 1993;88:633-634. [ Links ]
10. Brito MEF, Andrade MS, Mendonça MG, Silva CJ, Almeida EL, Lima BS, et al. Species diversity of Leishmania (Viannia) parasites circulating in an endemic area for cutaneous leishmaniasis located in the Atlantic rainforest region of northeastern Brazil. Trop Med Int Health 2009;14:1278-1286. [ Links ]
11. Dantas-Torres F, Cavalcanti MP, Figueredo LA, Melo MSFJ, Almeida EL, Brandão-Filho SP. Cutaneous and visceral leishmaniosis in dogs from a rural community in northeastern Brazil. Vet Parasitol 2010;170:313-317. [ Links ]
12. Cupolillo E, Brahim LR, Toaldo CB, Oliveira-Neto MP, Brito MEF, Falqueto A, et al. Genetic polymorphism and molecular epidemiology of Leishmania (Viannia) braziliensis from different hosts and geographic areas in Brazil. J Clin Microbiol 2003;41:3126-3132. [ Links ]
13. Lucena DT. Flebotómos do Nordeste - contribuição para o conhecimento de sua distribuição geográfica. Bolm Secr Agric Ind Com Est Pernambuco 1950; 17:184-191. [ Links ]
14. Dantas-Torres F, Andrade AJ, Tenório KER, Andrade JD, Balbino VQ, Brandão-Filho SP. Phetobomine sandflies (Diptera: Psychodidae: Phebotominae) in the state of Pernambuco. Rev Soc Bras Med Trop 2010;43:733-736. [ Links ]
15. Lucena DT, Oliveira MHCC, Leal MCA. Variação mensal dos flebotomíneos (Diptera: Psychodidae) de Igarassu, PE. Cad Ômega Univ Fed Rural PE. Ser Biol 1984;1:19-27. [ Links ]
16. Campbell-Lendrum DH, Brandão-Filho SP, Pinto MC, Vexenat PD, Davies CR. Domesticity of Lutzomyia whitmani (Diptera: Psychodidae) populations: field experiments indicate behavioural differences. Bull Entomol Res 2000;90:41-48. [ Links ]
17. Campbell-Lendrum DH, Pinto MC, Brandão-Filho SP, Souza AA, Ready PD, Davies CR. Experimental comparison of anthropophily between geographically dispersed populations of Lutzomyia whitmani (Diptera: Psychodidae). Med Vet Entomol 1999;13:299-309. [ Links ]
18. Guimarães VCFV, Costa PL, Silva FJ, Silva KT, Silva KG, Araújo AIF, et al. Phlebotomine sandflies (Diptera: Psychodidae) in São Vicente Férrer, a sympatric area to cutaneous and visceral leishmaniasis in the State of Pernambuco, Brazil. Rev Soc Bras Med Trop 2012;45:60-70. [ Links ]
19. Balbino VQ, Andrade MS, Coutinho-Abreu I, Sonoda IV, Marcondes CB, Shaw JJ, et al. Sandflies (Diptera: Psychodidae) species in Pernambuco State, northeastern Brazil, incriminated as vectors of cutaneous leishmaniasis in the Amazon region. Zootaxa 2005;1078:25-32. [ Links ]
20. Forattini OP, Patolli DBG, Rabello EX, Ferreira OA. Infecção natural de flebotomíneos em foco enzoótico de leishmaniose tegumentar no estado de São Paulo, Brasil. Rev Saude Publica 1972;6:431-433. [ Links ]
21. Lainson R, Shaw JJ. Leishmanias and leishmaniasis of the New World, with particular reference to Brazil. Bull Pan Am Health Organ 1973;7:1-19. [ Links ]
22. Vasconcelos IAB, Vasconcelos AW, Fe Filho NM, Queiroz RG, Santana EW, Bozza M, et al. The identity of Leishmania isolated from sandflies and vertebrate hosts in a major focus of cutaneous leishmaniasis in Baturite, Northeast Brazil. Am J Trop Med Hyg 1994;50:158-164. [ Links ]
23. Lainson R, Shaw JJ. Some reservoir-hosts of Leishmania in wild animals of Mato Grosso State, Brazil. Two distinct strains of parasites isolated from man and rodents. Trans R Soc Trop Med Hyg 1969;63:408-409. [ Links ]
24. Forattini OP, Patolli DBG, Rabello EX, Ferreira OA. Nota sobre infecção natural de Oryzomys capito laticeps em foco enzoótico de leishmaniose tegumentar no Estado de São Paulo, Brasil. Rev Saude Publica 1973;7:181-184. [ Links ]
25. Lainson R, Shaw JJ, Póvoa M. Leishmaniasis in Brazil: XVI. Isolation and identification of Leishmania species from sandflies, wild mammals and man in north Pará State, with particular reference to L. braziliensis guyanensis causative agent of "pian-bois". Trans R Soc Trop Med Hyg 1981;75:530-536. [ Links ]
26. Weigle KA, Dávalos M, Heredia P, Molineros R, Saravia NG, D'alessandro A. Diagnosis of cutaneous and mucocutaneous leihmaniasis in Colombia: a comparison of seven methods. Am J Trop Med Hyg 1987;36:489-496. [ Links ]
27. Lima BS. Perfil epidemiológico da leishmaniose tegumentar americana em São Vicente Férrer, Zona da Mata Norte do estado de Pernambuco, Brasil. [Masters Dissertation]. [Recife]: Centro de Pesquisa Aggeu Magalhães/ Fundação do Instituto Oswaldo Cruz; 2007. 75 p. [ Links ]
28. Coutinho B, Lobo J. Aspectos clínicos das linfopatias leishmanióticas. Anais Faculdade Med Recife 1935;3:41-53. [ Links ]
29. Barreto JB. A Saúde Pública no Brasil. Bol Oficina Sanit Panam 1939;18:923-940. [ Links ]
30. Andrade MS, Brito MEF, Silva ST, Ishikawa E, Carvalho SMS, Brandão-Filho SP. New American tegumentary leishmaniasis outbreak in a military training center in Zona da Mata region northern State of Pernambuco. Rev Soc Bras Med Trop 2009;42:1-3. [ Links ]
31. Ramos JVA, Santana JA, Reis S, Santana IM, Gonçalves SC, Paiva-Cavalcanti M, et al. Avaliação clínica-epidemiológica e terapêutica dos casos de leishmaniose tegumentar ocorridos no distrito de Três Ladeiras - Igarassu - PE. X Jornada de Ensino, Pesquisa e Extensão - JEPX. 2010. [Cited 2012 June 5]. Available from: http://www.sigeventos.com.br/jepex/inscricao/resumos/0001/R1961-2.PDF/. [ Links ]
32. Ministério da Saúde, Secretaria de Vigilância em Saúde. Casos de Leishmaniose Tegumentar Americana. Brasil, Grandes Regiões e Unidades Federadas. 1990 a 2010. [Cited 2012 June 5]. Available from: http://portal.saude.gov.br/portal/arquivos/pdf/lta_casos08_09_11.pdf. [ Links ]
33. Shaw JJ. The leishmaniases - survival and expansion in a changing world. A minireview. Mem Inst Oswaldo Cruz 2007;102:541-547. [ Links ]
34. Brito MEF, Mendonça MG, Gomes YM, Jardim ML, Abath FGC. Identification of potentially diagnostic Leishmania braziliensis antigens in human cutaneous leishmaniasis by immunoblot analysis. Clin Diag Laborat Immunol 2000;7:318-321. [ Links ]
35. Brito MEF, Mendonça MG, Gomes YM, Jardim ML, Abath FGC. Dynamics of the antibody response in patients with therapeutic or spontaneous cure of American cutaneous leishmaniasis. Trans R Soc Trop Med Hyg 2001;95:203-206. [ Links ]
36. Rodrigues EHG, Brito MEF, Mendonça MG, Werkhäuser RP, Coutinho EM, Souza WV, et al. Evaluation of PCR for diagnosis of American cutaneous leishmaniasis in na area of endemicity in Northeastern Brazil. J Clin Microbiol 2002;40:3572-3576. [ Links ]
37. Mendonça MG, Brito MEF, Rodrigues EHG, Bandeira V, Jardim ML, Abath FG. Persistence of Leishmania parasites in scars after clinical cure of American cutaneous leishmaniasis: is there a sterile cure? J Infect Dis 2004;189:1018-1023. [ Links ]
38. Reis LC, Brito MEF, Almeida EL, Felix SM, Medeiros ACR, Silva CJ, et al. Clinical, epidemiological and laboratorial aspects of patients with American cutaneuos leishmaniasis in the State of Pernambuco. Rev Soc Bras Med Trop 2008;41:439-443. [ Links ]
Dra. Maria Edileuza Felinto de Brito
Depto. Imunologia/CPqAM/FIOCRUZ-PE. Campus da UFPE, s/n, Cidade Universitária
50670-420 Recife, PE, Brasil
Phone/Fax: 55 81 2101-2641; 55 81 2101-2640
Received in 15/03/2012
Accepted in 20/06/2012