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Seroprevalence of Trichinella infections in domestic dogs from Slovakia

Published online by Cambridge University Press:  29 September 2016

M. Miterpáková
Affiliation:
Institute of Parasitology SAS, Hlinkova 3, 040 01 Košice, Slovakia
D. Antolová*
Affiliation:
Institute of Parasitology SAS, Hlinkova 3, 040 01 Košice, Slovakia
Z. Hurníková
Affiliation:
Institute of Parasitology SAS, Hlinkova 3, 040 01 Košice, Slovakia
N. Březinová
Affiliation:
Alpha Medical, s.r.o., Podhora 47, 034 01 Ružomberok, Slovakia
V. Čabanová
Affiliation:
Institute of Parasitology SAS, Hlinkova 3, 040 01 Košice, Slovakia
K. Reiterová
Affiliation:
Institute of Parasitology SAS, Hlinkova 3, 040 01 Košice, Slovakia
*
*fax: +421 55 633 14 14 E-mail: [email protected]

Abstract

Trichinellosis is constantly present in the sylvatic cycle in Slovakia, with several sporadic human outbreaks registered since the 1960s. The largest outbreak of trichinellosis occurred in 1998 and was related to the consumption of dog meat that had been added to smoked pork sausages. The aim of this study was to estimate the seroprevalence of Trichinella infection in domestic dogs in various regions of Slovakia. Out of 439 dogs tested, 56 (12.8%) were classified as a seropositive based on the enzyme-linked immunosorbent assay (ELISA), with confirmation by Western blotting. The highest seropositivity was recorded among dogs from the eastern part of Slovakia, in the Prešov (22.9%) and Košice (17.1%) regions, long considered to be highly endemic for Trichinella occurrence and where the prevalence of infection in the vulpine population is also the highest in Slovakia. Trichinella-seropositive animals were detected significantly more often in dogs kept in rural areas (21.1%) when compared with animals living in towns or suburban localities (7.7%). On the other hand, neither age, nor gender and size of the dogs were shown to be a significant factor for Trichinella infection (P > 0.05). The present results indicate that the dog population in Slovakia is at high risk of exposure to Trichinella parasites and could potentially represent a suitable host group for serological monitoring of Trichinella infection as convenient sentinel animals.

Type
Research Papers
Copyright
Copyright © Cambridge University Press 2016 

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References

Antolová, D., Reiterová, K. & Dubinský, P. (2006) The role of wild boars (Sus scrofa) in circulation of trichinellosis, toxocarosis and ascariosis in the Slovak Republic. Helminthologia 43, 9297.Google Scholar
Antolová, D., Reiterová, K., Stanko, M. & Dubinský, P. (2007) The role of small mammals in circulation of trichinellosis. Program and Abstracts. Tenth Helminthological Symposium, Helminths, Helminthoses and Environment, Stará Lesná, Institute of Parasitology SAS, Košice, Slovak Republic, September 9–14, p. 26.Google Scholar
BBC (British Broadcasting Company). (2014) Stop eating cats and dogs say animal rights campaigners in Switzerland. Available at http://www.bbc.co.uk/newsbeat/article/30205410/stop-eating-cats-and-dogs-say-animal-rights-campaigners-in-switzerland (accessed 21 October 2015)Google Scholar
Cui, J., Wang, Z.Q. and Xu, B.L. (2011) The epidemiology of human trichinellosis in China during 2004–2009. Acta Tropica 118, 15.Google Scholar
Dubinský, P., Sokol, J., Dvorožňáková, E., Štefančíková, A., Reiterová, K., Kinčeková, J., Švrček, Š. and Ďurove, A. (1998) Epidemiológia trichinelózy na Slovensku (Epidemiology of trichinellosis in Slovakia). Slovak Veterinary Journal 23, 204207 (in Slovak).Google Scholar
Dubinský, P., Štefančíková, A., Kinčeková, J., Ondriska, F., Reiterová, K. & Medveďová, M. (2001a) Trichinellosis in the Slovak Republic. Parasite 8, 100102.Google Scholar
Dubinský, P., Kinčeková, J., Reiterová, K. & Tomašovičová, O. (2001b) Epidémia trichinelózy v komárňanskom okrese (Epidemic of trichinellosis in Komárno district). pp. 1316 in Holková, R., Ondriska, F. & Klobušický, M. (Eds) Aktuálne problémy humánnej parazitológie a Klinický deň o problémoch diagnostiky a terapie toxoplazmózy. Bratislava, SPS and Institute of Parasitology LFKU (in Slovak).Google Scholar
Dubinský, P., Antolová, D. & Reiterová, K. (2016) Human Trichinella infection outbreaks in Slovakia, 1998–2008. Acta Parasitologica 61, 205211.Google Scholar
Frydas, S.I., Alexakis, A.E. & van Knapen, F. (1995) Prevalence of IgG antibodies to Trichinella spiralis in dogs in Macedonia, northern Greece. Veterinary Parasitology 59, 8185.Google Scholar
Gómez-Morales, M.A., Selmi, M., Ludovisi, A., Amati, M., Fiorentino, E., Breviglieri, L., Poglayen, G. & Pozio, E. (2016) Hunting dogs as sentinel animals for monitoring infections with Trichinella spp. in wildlife. Parasites & Vectors 9, 154.CrossRefGoogle ScholarPubMed
Hassan, S.E., El-Moghazy, F.M. & Toaleb, N.I. (2010) Comparison of two antigens for diagnosis of trichinellosis in pigs. World Applied Sciences Journal 4, 457461.Google Scholar
Homan, W.I., Derksen, A.C.G. & van Knapen, F. (1992) Identification of diagnostic antigens from Trichinella spiralis . Parasitology Research 78, 112119.CrossRefGoogle ScholarPubMed
Horváthová, E. (2007) Tradičná rómska strava (Traditional Roma food). pp. 9098 in Adamová, I. (Ed.) Antológia rómskych tradícií a remesiel. Bratislava, State Pedagogical Institute (in Slovak).Google Scholar
Hurníková, Z. & Dubinský, P. (2009) Long-term survey on Trichinella prevalence in wildlife of Slovakia. Veterinary Parasitology 159, 276280.CrossRefGoogle ScholarPubMed
Hurníková, Z. & Dubinský, P. (2011) Food safety and Trichinella risk assessment in Slovakia. Veterinářství 61, 326330 (in Slovak).Google Scholar
Hurníková, Z., Chovancová, B., Bartková, D. & Dubinský, P. (2007) The role of wild carnivores in the maintenance of trichinellosis in the Tatras National Park, Slovakia. Helminthologia 44, 1820.Google Scholar
Kapel, C.M.O., Webster, P., Lind, P., Pozio, E., Henriksen, S.-A., Murrell, K.D. & Nansen, P. (1998) Trichinella spiralis, T. britovi, and T. nativa: infectivity, larval distribution in muscle, and antibody response after experimental infection on pigs. Parasitology Research 84, 264271.Google Scholar
Møller, L.N. (2007) Epidemiology of Trichinella in Greenland – occurrence in animals and man. International Journal of Circumpolar Health 66, 7779.CrossRefGoogle Scholar
Oivanen, L., Nareaho, A., Jokela, S., Rikula, U., Gamble, R. & Sukura, A. (2005) The prevalence of Trichinella infection in domestic dogs in Finland. Veterinary Parasitology 132, 125129.CrossRefGoogle ScholarPubMed
Ondriska, F., Pochybová, M., Kultan, V., Smiesna, A., Lesnáková, M., Danová, K., Mihalková, V., Duliková, M., Kuchtová, M., Liška, M. & Streharová, A. (2000) Regional incidence of human trichinellosis outside the outbreak focus. Helminthologia 37, 6770.Google Scholar
Ozeretskovskaya, N.N., Mikhailova, L.G., Sabgaida, T.P. & Dovgalev, A.S. (2005) New trends and clinical patterns of human trichinellosis in Russia at the beginning of the XXI century. Veterinary Parasitology 132, 167171.Google Scholar
Paraličová, Z., Kinčeková, J., Schréter, I., Jarčuška, P., Dubinský, P., Porubčin, S., Pavlínová, J. & Kristián, P. (2009) Outbreak of trichinellosis in eastern Slovakia. Helminthologia 46, 209213.Google Scholar
Poletaeva, O.G. & Kraskovskaia, N.N. (1995) The efficiency of the serological reactions with Trichinella spiralis somatic antigen in the diagnosis of human trichinelliasis caused by infection with natural and synanthropic Trichinella isolates. Meditsinskaia parazitologiia (Moskva) 2, 3335 (in Russian).Google Scholar
Reiterová, K., Dubinský, P., Klimenko, V.V., Tomašovičová, O. & Dvorožňáková, E. (1999) Comparison of Trichinella spiralis larva antigens for the detection of specific antibodies in pigs. Veterinary Medicine Czech 44, 15.Google Scholar
Reiterová, K., Kinčeková, J., Šnábel, V. & Dubinský, P. (2007a) Characterisation of clinical features, diagnosis and epidemiological aspects surrounding four Trichinella outbreaks in Slovakia over the last two decades. Book of Abstracts. XII International Conference on Trichinellosis: Croatia, National Plitvice Lakes, Croatian Veterinary Society, Croatia, 25–30 September, p. 95.Google Scholar
Reiterová, K., Kinčeková, J., Šnábel, V., Marucci, G., Pozio, E. & Dubinský, P. (2007b) Trichinella spiralis-outbreak in the Slovak Republic. Infection 35, 8993.CrossRefGoogle ScholarPubMed
Stoličná, R. (2009) Tradičná kulinárna kultúra etnických menšín na Slovensku (Traditional cooking culture of ethnic minorities in Slovakia). Národopisná revue 19, 158167 (in Slovak).Google Scholar
Tattiyapong, M., Chaisri, U., Vongpakorn, M., Anantaphruti, M.T. & Dekumyoy, P. (2011) Comparison of three antigen preparations to detect trichinellosis in live swine using IgG ELISA. Southeast Asian Journal of Tropical Medicine and Public Health 42, 13391350.Google Scholar
Turčeková, Ľ., Borošková, Z., Tomašovičová, O., Reiterová, K. & Kinčeková, J. (1997) Immunochemical analysis of larval antigens of Trichinella spiralis and T. pseudospiralis . Helminthologia 34, 241243.Google Scholar
Vu Thi, N., De, N.V., Praet, N., Claes, L., Gabriël, S. & Dorny, P. (2013) Seroprevalence of trichinellosis in domestic animals in northwestern Vietnam. Veterinary Parasitology 193, 200205.Google Scholar
Watier-Grillot, S., Vallée, I., Lacour, S.A., Cana, A., Davoust, B. & Marié, J.L. (2011) Strayed dogs sentinels of Trichinella britovi infection in Kosovo. Parasite 18, 281283.CrossRefGoogle ScholarPubMed