IS THERE AN OUTBREAK OF TICK-BORNE ENCEPHALITIS IN PERNIK DISTRICT, BULGARIA? FOUR CASES REGISTERED FOR A PERIOD OF FOUR YEARS – CLINICAL MANIFESTATIONS AND EPIDEMIOLOGICAL RELATIONS
DOI:
https://doi.org/10.58395/pipd.v49i1.57Keywords:
tick-borne encephalitis, endemic outbreak, clinical symptomsAbstract
In Europe, the number of tick-borne encephalitis (TBE) cases has been increasing in the last decade, and the number of endemic areas has also been increasing. Bulgaria, located in southeastern Europe, is not in the TBE endemic area. However, sporadic TBE cases have been occasionally detected. The disease has a natural-focal nature, pronounced seasonality, with a vector- Ixodes ticks that transmit the infection from animals to humans. TBE is severe infection with specific lesions of the central nervous system (CNS), with residual phenomena and high lethality. The first cases of TBE in Pernik district were registered in 2015. The aim of the study is to consider clinical cases of TBE in Pernik district during period 2017-2020, to look for an epidemiological link between them and to monitor severity of the infection. We briefly present the most characteristic clinical and laboratory features of four laboratory confirmed cases of tick-borne encephalitis in the last 4 years. The mean age of all of the patients was 56. All four cases were observed in May, June, and July. They proceeded relatively smoothly with a favorable outcome, without paresis or paralysis of the limbs, without seizures or loss of consciousness. In the first case of computed tomography, no pathological changes in the brain were observed, while in the other three cases multiinfarction encephalopathy, evidence of initial cerebral edema and two porencephalic foci were found. Two of the patients had meningoradicular irritation with positive symptoms of Kerning, Brudzinski and Babinski, while in the other two patients these symptoms were absent. In all four cases there was a classic change in the hemogram: moderate leukocytosis with granulocytosis, and in the study of cerebrospinal fluid - a slight increase in total protein, moderate pleiocytosis and normal values of sugar and chloride. Only one of the patients was reported to be bitten by a tick, and the other three were most likely infected through food (raw goat's milk). Confirmed cases of TBE in Pernik district, although isolated, show that the virus is circulating in this region. This is facilitated by a number of factors: climate change, activity of the epizootic process in the tick population, different species of vertebrates in natural foci; presence of a large number of goats infected with viruses. Although cases of TBE have been reported only sporadically due to a lack of sufficient testing, TBE virus is circulating in Pernik district. Comprehensive measures are needed: through good awareness of clinicians, search for infection in patients with viral meningitis, increased screening of raw milk by the Bulgarian Food Safety Agency, future studies on ticks and farm animals for presence of TBE in this region. This study is a prerequisite for future research in this direction.
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References
Andonov P., Rusakiev M., Hristova T., Prodromov A., Petkov P., Penchev S., Grancharov K., Naturalhearth from the group of ticks encephalitis in the Eastern Old Mountain, Hygiene, 1961, 6: 23-26.(in bulgarian).
Andonov P., Rusakiev M. Natural hearth of ticks encephalitis from a sick child, Epidem., microb., and inf. bol., 1966, 3: 128-138. (in bulgarian).
Balogh Z, Ferenczi E, Szeles K, Stefanoff P, Gut W, Szomor KN, Takacs M, Berencsi G. Tick-borne encephalitis outbreak in Hungary due to consumption of raw goat milk. J Virol Methods, 2010, 163,; 481–485.
Bogovic P., Franc Strle Tick-borne encephalitis: A review of epidemiology, clinical characteristics, and management World J Clin Cases, 2015, 16; 3(5): 430-441.
Christie L. The global burden of bacterial and viral zoonotic infections. Clin Microb Inf 17, 2011; 326–330.
Christova I, L. Andonova, M. Slavova, E. Tasseva, T. Gladnishka, I. Trifonova, V. Ivanova, Atipical case of tick-borne encephalitis, Probl. Inf. Parasit. Dis, 37, 2009, 2, 13-14.
Christova I., I. Dikov, L. Andonova, E. Taseva, N. Kalvachev, Sh. Popal, R. Mikhailova, M. Pishmisheva, I. Baltadzhiev, M. Slavova, K. Plochev, Four cases of tick-borne encephalitis, Science Infectious Diseases and Parasitology, 2011, 1, 43-45. (in bulgarian).
Christova I., Panayotova I., Tchakarova S., Taseva E., Trifonova I., Gladnishka T., A nationwide seroprevalence screening for West Nile virus and Tick-borne encephalitis virus in the population of Bulgaria, Journal of Medical Virology, 2017; 89(10):1875-1878.
Christova I. TBE in Bulgaria. Chapter 12b. In: Dobler G, Erber W, Bröker M, Schmitt HJ, eds. The TBE Book. 3rd ed. Singapore: Global Health Press; 2020.
Dumpis U, Crook D, Oksi J. Tick-borne encephalitis. Clin Infect Dis, 1999; 28:882-890.
Ecker, M., Allison, S. L., Meixner, T. & Heinz, F. X. Sequence analysis and genetic classification of tick-borne encephalitis viruses from Europe and Asia. J Gen Virol, 1999, 80, 179–185.
Kaiser R: Presented at 7th annual meeting of ISW-TBE in Vienna, 2005.
Kaiser R. Tick-borne encephalitis. Infect Dis Clin North Am, 2008; 22: 561-575.
Krawczuk K., Czupryna P., Pancewicz S., Ołdak E., Moniuszko-Malinowska A., Comparison of tick-borne encephalitis between children and adults—analysis of 669 patients, J of NeuroVirology, 2020; 26(4):565-571.
Manolov P., Katsarov B. A case of tick-borne encephalitis after consummate of raw goat's milk. Infectology, 2006, 2: 37-38. (in bulgarian).
Mansfield K., Johnson N., Phipps L., Stephenson J., Fooks A., and Solomon T., Tick‐borne encephalitis virus – a review of an emerging zoonosis. J. Gen. Virol. 2009, 90:1781–1794.
Mohareb E. , I Christova , A Soliman , R Younan , T Kantardjiev, Tick-borne encephalitis in Bulgaria, 2009 to 2012, Eurosurveillance, 2013, 18, (46), 1-4.
Panayotova E., Study of the distribution of some Bunya and Flaviviruses in Bulgaria, dissertation, 2016. (in bulgarian).
Poluga J., Barac., Katanic N., Rubino S. at all, Tick-borne encephalitis in Serbia: A case series, J Infect Dev Ctries, 2019; 13(6):510-515.
Sormunen JJ, Klemola T, Hänninen J, Mäkelä S, Vuorinen I, Penttinen R, Sääksjärvi IE, Vesterinen EJ The importance of study duration and spatial scale in pathogen detection-evidence from a tick-infested island. Emerg Microbes Infect, 2018, 7: 189.
Suss J. Tick-borne encephalitis in Europe and beyond – the epidemiological situation as of 2007. Eurosurveillance 13, 2008; pii 8916.
Yoshii K. Epidemiology and pathological mechanisms of tick-borne encephalitis. J Vet Med Sci, 2019, 81: 343-347.
Vaptsarov I., Tarpomanov A., Spasov Z., Nikov D., Dragiev M. Reversible (two-wave) meningoencephalitis in Southern Bulgaria, Modern. Medic.,1964, 2: 86-103.(in bulgarian).
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Copyright (c) 2021 Evgeniya Taseva, Iva Christova, Elitsa Panayotova, Diana ilieva, Valentina Pavlova (Author)
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