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- Euroleish
Epidemiologic survey of phlebotomine vectors in a canine leishmaniasis endemic area in Spain Velez, R.1,2, Ballart, C.1,2, Domenech, E.3, Cairó, J.3, Portús, M.2, Gállego, M.1,2 1ISGlobal, Barcelona Ctr. Int. Health Res. (CRESIB), Hospital Clínic - Universitat de Barcelona, Barcelona, Spain 2Laboratory of Parasitology, Faculty of Pharmacy, Universitat de Barcelona, Barcelona, Spain 3Canis Veterinary Hospital, Girona, Spain Corresponding author: [email protected] Introduction Results Leishmaniasis caused by Leishmania infantum is an endemic vector-borne zoonosis in the A total of 133 phlebotomine specimens were recovered, from which 60 were females (45%). A Mediterranean region. Canine leishmaniasis (CanL) has a great impact in domestic dog populations, positive result was observed in 13 sampling stations and the identified species in order of decreasing and it represents an important source of the parasite for human infection (WHO, 2010). In this abundance were P. perniciosus (53%), P. ariasi (32%) and Sergentomyia minuta (15%). P. perniciosus region, control of both human and canine leishmaniasis greatly depends on an effort to reduce was present in 50% of the sampling locations (frequency), ranging from altitudes of 84 m to 343 m infection burdens in the animal host and phlebotomine vector surveillance. a.s.l. The frequency of P. ariasi was 30% and it was found at altitude ranges of 139 m to 259 m a.s.l. Recently, a vaccine to prevent CanL has been released in Europe (France, Italy, Portugal and Spain) S. minuta was found between 73 m and 285 m a.s.l. and presented a frequency of 45%. (Moreno et al., 2012) and a project to evaluate its effectiveness in an endemic area of northern Spain is being held since mid-2015. Though it is known that Phlebotomus perniciosus and P. ariasi are the implicated vectors in L. infantum transmission in Spain (Portús et al, 2007; Guilvard et al., 1996), little is known about their current distribution or the presence of other sand fly species in the area considered. Therefore, a preliminary phlebotomine epidemiologic survey was conducted simultaneously with a CanL seroprevalence study in order to characterize the area where the vaccine field study would take place. Materials & Methods A total of 20 dog kennels located in Girona province (Catalonia, northern Spain) were sampled during September 2015. Dog densities in these kennels ranged from 4 to 30 animals, with an average of 15 dogs per sampling site. These were mainly located in rural areas and at altitudes varying from 73 m to 396 m above sea level. One to two CDC light traps were placed for one night in each sampling station, from which 33 traps were recovered. All sand flies were preserved in 70% ethanol until mounting in Hoyer’s medium for morphological identification under optical microscopy, following the keys of Gállego Berenguer et al. (1992). Fig. 3 – Sand fly abundance observed in each sampling station. Discussion & Conclusions Climatic conditions observed during the previous days to the placement of traps, with heavy rains in the study area, as well as a low number of sampling nights, may explain the reduced number of sand flies recovered during this pilot study. Fig. 1 and 2 – CDC light traps placed in two of the dog kennels. Nevertheless, these preliminary results allow an insight into the phlebotomine vectors present in an endemic CanL region and support the selection of this location for carrying out a CanL vaccine trial. A further characterization of these arthropod populations combined with results from currently Table 1 – Location and general characterization of dog kennels sampled during the survey. Sampling stations ID Nearest village 1 Ordis 2 Madremanya Maçanet de la Selva Massanes Massanes Hostalnou de Bianya 3 4 5 6 7 8 9 10 11 12 13 14 15 Hostalnou de Bianya Hostalnou de Bianya Montagut Montagut Sant Esteve de Llémena Sant Esteve de Llémena Canet d'Adri Canet d'Adri Aiguaviva Geographical coordinates Altitude (m a.s.l.) Relative position to nearest settlement No. of dogs N 42° 13' 37.7''; E 2° 54' 24.1'' 104 Between 30 N 41° 58' 47.0''; E 2° 58' 7.2'' 139 Between 18 Goats 2 Selva N 41° 47' 27.4''; E 2° 45' 0.4'' 73 Between 17 Pigs 1 Selva Selva N 41° 45' 15.3''; E 2° 38' 44.0'' N 41° 45' 53.8''; E 2° 39' 0.1'' 88 117 Edge Between 11 14 2 2 Garrotxa N 42° 13' 26.0''; E 2° 26' 9.7'' 396 Edge 5 2 Garrotxa N 42° 12' 39.2''; E 2° 28'35.0'' 355 Edge 5 County Alt Empordà Gironès Garrotxa N 42° 12' 43.1''; E 2° 28'35.1'' 343 Edge 8 Garrotxa Garrotxa N 42° 14' 7.7''; E 2° 35' 57.6'' N 42° 13' 41.8''; E 2° 35' 58.1'' 254 258 Edge Within Garrotxa N 42° 3' 35.1''; E 2° 37' 1.4'' 283 Within Other animals Chickens 1 1 30 21 Cattle 2 2 11 Cattle 2 Garrotxa N 42° 3' 42''; E 2° 36' 53.4'' 285 Within 9 1 Gironès Gironès Gironès N 42° 1' 53.7''; E 2° 44' 15.3'' N 42° 2' 43,9''; E 2° 44' 59,2'' N 41° 54' 27.2''; 2° 46' 19.0'' 231 248 148 Within Edge Edge 10 16 27 2 1 1 Sta. Coloma de Farners Selva N 41° 50' 39.4''; E 2° 40' 48.4'' 128 Edge 22 17 Sta. Coloma de Farners Selva N 41° 51' 26.3''; E 2° 40' 36.1'' 126 Edge 10 Baix Empordà Gironès N 41° 47' 2.3''; E 2° 59' 58.7'' 84 Between 19 19 Sant Feliu de Guíxols Canet d'Adri N 42° 1' 57.0''; E 2° 44' 8.6'' 234 Within 4 20 Canet d'Adri Gironès N 42° 2' 23.9''; E 2° 43' 46.0'' 259 Edge 8 ongoing CanL seroprevalence studies will enable a better understanding of this zoonosis and the identification of transmission risk factors in this geographic area. 1 Sheeps 16 18 No. CDC recovered per night Chickens Horses Horses, sheeps, pigs, chickens References: Gállego Berenguer J, Botet J, Gállego M, Portús M.,1992. Los flebotomos de la España peninsular e Islas Baleares. Identificación y corología. Comentarios sobre los métodos de captura. In: In Memoriam al Prof. Dr. DF de P. Martínez Gómez. Hernández S (ed). Publicaciones de la Universidad de Córdoba. 581-600. Guilvard E, Gállego M, Moreno G, Fisa R, Rispail P, Pratlong F, Martínez-Ortega E, Gállego J & Rioux JA, 1996. Infestation naturelle de Phlebotomus ariasi et Phlebotomus perniciosus (Diptera-Psychodidade) par Leishmania infantum (KinetoplastidaTrypanosomatidade) en Catalogne (Espagne). Parasite. 3, 191-192. Moreno J, Vouldoukis I, Martin V, McGahie D, Cuisinier AM, Gueguen S, 2012. Use of a LiESP/QA-21 vaccine (CaniLeish) stimulates an appropriate Th1-dominated cell-mediated immune response in dogs. PLoS Neglected Tropical Diseases. 6(6), 1-7. Portús M, Gállego M, Riera C, Fisa R, Aisa MJ, Botet J, Carrió j, Castillejo S, Iniesta L, López P, Montoya L, Muñoz C, Serra T & Gállego, J, 2007. A review of human and canine leishmaniasis in Catalonia and associated vector distribution. Revista Ibérica de Parasitología. 67, 59-67. World Health Organization (WHO). 2010. Control of leishmaniases. WHO Technical Report Series no.949. Report of a meeting of the WHO Expert Committee on the Control of Leishmaniasis. Geneva, 22-26 March 2010. 2 2 Goats 2 2 Goats, chickens 2 This research is funded by the European Union’s H2020 Programme under the MSCA GA nº642609. EUROLEISH.NET: CONTROL OF LEISHMANIASIS – From Benchside to Community http://www.euroleish.net/