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Patogeneze a klinické aspekty infekce virem klíšťové encefalitidy
ELSTEROVÁ, Jana
This thesis contributes to knowledge about the combined impacts of the pathogenesis of the tick-borne encephalitis virus (TBEV) and the immunopathogenesis of the host on the clinical course of acute tick-borne encephalitis (TBE). The thesis further focuses on the process of TBEV neuroinvasion and the utilization of the host's immune products as potential therapeutic interventions.
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Pathogenesis of eczema vaccinatum
Elsterová, Jana ; Mělková, Zora (advisor) ; Forstová, Jitka (referee)
Vaccinia virus (VACV) is primarily known as a vaccine against its relative variola virus, the causative agent of smallpox. In the seventies of the 20th century, the vaccination campaign with VACV led to eradication of smallpox. Consequently, vaccination of the general population was stopped. Currently, the vaccination was reintroduced, namely among army and healthcare professionals. However, vaccination with VACV is accompanied with a high incidence of vaccination-related complications, namely among immunocompromised individuals. One of the complications is eczema vaccinatum, occuring in patients with atopic dermatitis. The laboratory of Dr. Melkova has focused on development of a model of eczema vaccinatum in mice Nc/Nga and on studies of pathogenesis of this complication. The goal of my diploma thesis is to contribute to characterization of imunopathogenesis of eczema vaccinatum in mice Nc/Nga infected either with VACV strain Western Reserve (WR) or with a recombinant VACV with the integrated cDNA for IRF-3 (Interferon Regulatory Factor 3; WR-IRF3). IRF-3 regulates the expression of interferon type I in response to viral infection. This recombinant virus has been constructed in the laboratory of Dr. Melková. The objective of my work was to verify the expression of the integrated cDNA for IRF-3 and to...
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(Arbo)viruses in high European Arctic
ELSTEROVÁ, Jana
Since an ongoing climate change covers strongly the polar areas. Higher temperatures and related climate parameters bring the emergence of new parasites and their pathogens to higher latitudes. This may influence zoonotic diseases including arthropod-transmitted diseases. The tick species Ixodes uriae, parasitizing seabirds in the Arctic, may transmit many pathogens including various arboviruses, Borrelia spirochetes and Babesia apicomplexans. In the study we diagnosed 89 individuals of seabird tick Ixodes uriae and searched for arthropod-borne viruses from the genera Flavivirus, Alphavirus, Orthobunyavirus, Phlebovirus and Orbivirus using genus-specific primers. Moreover we searched for presence of Borrelia spp. and Babesia spp. DNA in the ticks. All samples were negative after PCR amplification for all tested pathogens. The result signalizes that tested pathogens might not be present in such high latitudes of European Arctic. Though, the possibility of introduction of these pathogens may be observable in near future due to quick changing of the Arctic ecosystem with the rising of migration of vertebrate hosts including humans to the polar areas. It is though important to continue to study potential presence of pathogens in polar areas. We are working on increase of the number of tick samples to confirm the presence or absence of the tick-borne pathogens in the European Arctic.
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