Your search keyword '"Fejková, Karolína"' showing total 2 results

1. Rapid Identification of Pseudomonas aeruginosa International High-Risk Clones Based on High-Resolution Melting Analysis

Author

Dufková, Kristýna, Bezdíček, Matěj, Nykrýnová, Markéta, Kocmanová, Iva, Kubáčková, Petra, Hanslikova, Jana, Fejková, Karolína, Mayer, Jiří, Lengerová, Martina, Dufková, Kristýna, Bezdíček, Matěj, Nykrýnová, Markéta, Kocmanová, Iva, Kubáčková, Petra, Hanslikova, Jana, Fejková, Karolína, Mayer, Jiří, and Lengerová, Martina

Abstract

The Pseudomonas aeruginosa population has a nonclonal epidemic structure. It is generally composed of a limited number of widespread clones selected from a background of many rare and unrelated genotypes recombining at high frequency. Due to the increasing prevalence of nosocomial infections caused by multidrug-resistant/extensively drug-resistant (MDR/XDR) strains, it is advisable to implement infection control measures. Pulsed-field gel electrophoresis (PFGE) and multilocus sequence typing (MLST) are considered the gold standard methods in bacterial typing, despite being limited by cost, staff, and instrumental demands. Here, we present a novel mini-MLST scheme for P. aeruginosa rapid genotyping based on high-resolution melting analysis. Using the proposed mini-MLST scheme, 3,955 existing sequence types (STs) were converted into 701 melting types (MelTs), resulting in a discriminatory power of D=0.993 (95% confidence interval [CI],0.992 to 0.994). Whole-genome sequencing of 18 clinical isolates was performed to support the newly designed mini-MLST scheme. The clonal analysis of STs belonging to MelTs associated with international high-risk clones (HRCs) performed by goeBURST software revealed that a high proportion of the included STs are highly related to HRCs and have also been witnessed as responsible for serious infections. Therefore, mini-MLST provides a clear warning for the potential spread of P. aeruginosa clones recognized as MDR/XDR strains with possible serious outcomes.

Published

2023

2. Histological examination of the colon

Author

FEJKOVÁ, Karolína

Subjects

immunohistochemistry, hereditární nepolypózní kolorektální karcinom, MMR proteiny, histologie, hereditary nonpolyposis colorectal cancer, colon, histology, Kolorektální karcinom, tlusté střevo, MMR proteins, imunohistochemie, Colorectal cancer

Abstract

This bachelor´s thesis deals with histological examination of the colon, namely the laboratory diagnosis of colorectal cancer. Colorectal cancer is a highly relevant issue today not only in the Czech Republic, not least because of its continually growing incidence worldwide. Laboratory analysis of this disease is not only important from the aspect of diagnosis per se. Determining the type and invasive stage of the disease is also crucial for the therapeutic strategy in a given patient. Immunohistochemistry testing of the colon also aids in the diagnosis of Lynch syndrome, a hereditary disease with a high risk of colorectal cancer. The first part of the thesis is theoretical and aims to introduce not only the subject of colorectal cancer but also the anatomical, histological and pathological features of the colon. This section also describes the methods used to obtain tissue samples from the colon and to process these in a histopathology laboratory. This information regarding the histopathological processing of colon tissue is then applied and described in detail in the methodology section of the thesis. This describes the process of routine staining methods such as haematoxylin-eosin and Alcian Blue. It also details the manually performed immunohistochemical methods and related reagents, including the use of antibodies. The next section presents a statistical analysis of a sample of patients with colorectal cancer treated at the Jihlava Hospital between 2018 and 2019. These data confirm the generally accepted fact that there is a higher incidence of colorectal cancer in men and that this cancer predominantly affects patients aged between 60 to 70 years. Furthermore, this work shows that defects in the MMR proteins associated with Lynch syndrome are not detected in even one half of the patients tested.

Published

2020