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Comparison confirmation ELISA to recomLine test for the determination of hepatitis C
BAČKOVÁ, Marcela
My bachelor thesis deals with hepatitis C disease and its laboratory diagnosis, especially confirmatory tests. The theoretical part focuses on the disease in general, describes the hepatitis C virus that causes the disease. It also discusses the acute and chronic phases, virus transmission and treatment options. In the practical part I describe the examination of anti-HCV screening antibodies and how to proceed in case of a positive finding. The main task of my practical part is to compare two confirmatory tests - ELISA and immunoblot recomLine. At the end of the work I evaluate both tests and compare the final results.
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Molecular diagnostics of hepatitis C in a selected group of patients
KALINAYOVÁ, Daniela
This bachelor thesis deals with the occurrence of hepatitis C and its detection focused on direct evidence of the virus. The theoretical part describes and divides hepatitis C into acute and chronic, focuses on its genetic variability and explains how this virus behaves, is transmitted and mutated. Mutation creates other variants of it, which must be distinguished from each other if we want to set up an effective treatment. The practical part gives us information about the incidence of HCV among men and women, which are clearly divided in tables according to the year of birth, positivity and negativity. It also deals with the determination of a given genotype / subtype.
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Exosomes in viral infection and cancer
Sekavová, Alžběta ; Španielová, Hana (advisor) ; Hirsch, Ivan (referee)
Exosomes facilitate intercellular communication and transport of cellular cargo. Understanding the mechanisms underlying the cargo sorting to exosomes and the transport itself is crucial for vaccine development and diagnostic research. Exosome-mediated transfer contributes to immune response as well as progression of several diseases, including cancer and viral infections. Research on exosomes and their role in life cycles of tumorigenic viruses links already known mechanisms of viral carcinogenesis to the transport mechanisms of both cellular and viral proteins and nucleic acids. Epstein-Barr virus employs exosomes for transmission of the LMP1 oncoprotein and regulatory RNAs, whereas human immunodeficiency virus exploits cellular exosomal pathway for hijacking its membrane during budding, which helps it evade the immune system. It has been discovered that hepatitis C virus transfers its infectious virions between cells in exosomes. Exosomes containing oncoproteins and viral RNAs are also released from cells infected with other human tumorigenic viruses. However, mechanisms and implications of such events remain to be discovered. Keywords: exosome, cancer, viral infection, tumorigenic viruses, immunity, in- tercellular communication, hepatitis C virus, Epstein-Barr virus, human immuno- deficiency virus
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Exosomes in viral infection and cancer
Sekavová, Alžběta ; Španielová, Hana (advisor) ; Hirsch, Ivan (referee)
Exosomes facilitate intercellular communication and transport of cellular cargo. Understanding the mechanisms underlying the cargo sorting to exosomes and the transport itself is crucial for vaccine development and diagnostic research. Exosome-mediated transfer contributes to immune response as well as progression of several diseases, including cancer and viral infections. Research on exosomes and their role in life cycles of tumorigenic viruses links already known mechanisms of viral carcinogenesis to the transport mechanisms of both cellular and viral proteins and nucleic acids. Epstein-Barr virus employs exosomes for transmission of the LMP1 oncoprotein and regulatory RNAs, whereas human immunodeficiency virus exploits cellular exosomal pathway for hijacking its membrane during budding, which helps it evade the immune system. It has been discovered that hepatitis C virus transfers its infectious virions between cells in exosomes. Exosomes containing oncoproteins and viral RNAs are also released from cells infected with other human tumorigenic viruses. However, mechanisms and implications of such events remain to be discovered. Keywords: exosome, cancer, viral infection, tumorigenic viruses, immunity, in- tercellular communication, hepatitis C virus, Epstein-Barr virus, human immuno- deficiency virus
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The Heme Catabolic Pathway in Chronic Hepatitis C
Subhanová, Iva ; Zima, Tomáš (advisor) ; Průša, Richard (referee) ; Kráslová, Ivana (referee)
This thesis focuses on the importance of the heme catabolic pathway in chronic hepatitis C (HCV). The aim is mainly to investigate, whether expresion/activity of key enzymes of the heme catabolic pathway, heme oxygenase (HMOX) and biliverdin reductase (BLVRA) in the liver and blood (study A) or promoter variations of HMOX1 and UDP- glucuronosyltransferase (UGT1A1) (study B) may be associated with the progression of fibrosis and may also predict antiviral treatment outcome in patients chronically infected with HCV. We set up a new sensitive method to quantify HMOX activity by reduction gas chromatography. We developed and extensively validated RealTime PCR assay for HMOX and BLVRA expression in the liver and peripheral blood leucocytes (PBL). The (GT)n and (TA)n dinucleotide variations in HMOX1 and UGT1A1 gene promoters, respectively, were determined by fragment analysis. No association was detected between either expression of HMOX/BLVRA or the HMOX1/ UGT1A1 promoter variants and the individual histological stages of liver disease in the HCV positive patients. A marked difference in BLVRA expression in PBL between the sustained responders (SVR) and patients with treatment failure (NVR) was detected before antiviral treatment and during the follow-up. Our data suggests, that BLVRA basal expression...
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