Your search keyword '"Fiedorova, K"' showing total 6 results

1. Low-burden TP53 mutations in chronic phase of myeloproliferative neoplasms: association with age, hydroxyurea administration, disease type and JAK2 mutational status

Author

Kubesova, B, primary, Pavlova, S, additional, Malcikova, J, additional, Kabathova, J, additional, Radova, L, additional, Tom, N, additional, Tichy, B, additional, Plevova, K, additional, Kantorova, B, additional, Fiedorova, K, additional, Slavikova, M, additional, Bystry, V, additional, Kissova, J, additional, Gisslinger, B, additional, Gisslinger, H, additional, Penka, M, additional, Mayer, J, additional, Kralovics, R, additional, Pospisilova, S, additional, and Doubek, M, additional

Published

2017

2. Low-burden TP53 mutations in chronic phase of myeloproliferative neoplasms: association with age, hydroxyurea administration, disease type and JAK2 mutational status

Author

Kubesova, B, Pavlova, S, Malcikova, J, Kabathova, J, Radova, L, Tom, N, Tichy, B, Plevova, K, Kantorova, B, Fiedorova, K, Slavikova, M, Bystry, V, Kissova, J, Gisslinger, B, Gisslinger, H, Penka, M, Mayer, J, Kralovics, R, Pospisilova, S, and Doubek, M

Abstract

The multistep process of TP53 mutation expansion during myeloproliferative neoplasm (MPN) transformation into acute myeloid leukemia (AML) has been documented retrospectively. It is currently unknown how common TP53 mutations with low variant allele frequency (VAF) are, whether they are linked to hydroxyurea (HU) cytoreduction, and what disease progression risk they carry. Using ultra-deep next-generation sequencing, we examined 254 MPN patients treated with HU, interferon alpha-2a or anagrelide and 85 untreated patients. We found TP53 mutations in 50 cases (0.2–16.3% VAF), regardless of disease subtype, driver gene status and cytoreduction. Both therapy and TP53 mutations were strongly associated with older age. Over-time analysis showed that the mutations may be undetectable at diagnosis and slowly increase during disease course. Although three patients with TP53 mutations progressed to TP53-mutated or TP53-wild-type AML, we did not observe a significant age-independent impact on overall survival during the follow-up. Further, we showed that complete p53 inactivation alone led to neither blast transformation nor HU resistance. Altogether, we revealed patient's age as the strongest factor affecting low-burden TP53 mutation incidence in MPN and found no significant age-independent association between TP53 mutations and hydroxyurea. Mutations may persist at low levels for years without an immediate risk of progression.

Published

2018

3. Review of present method of glucose from human blood and body fluids assessment.

Author

Fiedorova K, Augustynek M, Kubicek J, Kudrna P, and Bibbo D

Subjects

Blood Glucose, Blood Glucose Self-Monitoring methods, Glucose, Humans, Hypoglycemic Agents, Insulin, Biosensing Techniques, Body Fluids, Diabetes Mellitus, Type 1

Abstract

the work has been aimed to create an overview of available and used methods and ways to determine the concentration of glucose in body fluids, especially from a technical point of view. It also provides an overview of the clinical features of these methods. The survey found that today's market offers a large number of options and approaches to the issue. There are accurate reference laboratory methods, self-monitoring methods for measuring glucose levels using glucometers, or continuous methods for daily monitoring of blood glucose trends and for insulin pump control. However, it must not be forgotten that the development of full closure of feedback is still not complete today. Individual methods cannot always be compared with each other, precisely because of the focus and the use of these methods. Choosing the right method of blood glucose levels in the body measuring can help patients to manage their diabetes mellitus. The methods listed in the overview are divided in terms of measurement continuity and further according to the invasiveness of the method. Finally, the issues of accuracy in the detection of glycaemia variability and the possibility of further development of these methods are discussed, as it is clear from the survey that the development is focused mainly on continuous methods improving that get to the forefront and also on developing a biosensor that is purely non-invasive and continuous., (Copyright © 2022 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2022

4. Recent Trends, Construction, and Applications of Smart Textiles and Clothing for Monitoring of Health Activity: A Comprehensive Multidisciplinary Review.

Author

Kubicek J, Fiedorova K, Vilimek D, Cerny M, Penhaker M, Janura M, and Rosicky J

Subjects

Clothing, Electrodes, Electronics, Humans, Textiles, Wearable Electronic Devices

Abstract

In the area of biomedical signal monitoring, wearable electronics represents a dynamically growing field with a significant impact on the market of commercial products of biomedical signal monitoring and acquisition, as well as consumer electronic for vital functions monitoring. Since the electrodes are perceived as one of the most important part of the biomedical signal monitoring, they have been one of the most frequent subjects in the research community. Electronic textile (e-textile), also called smart textile represents a modern trend in the wearable electronics, integrating of functional materials with common clothing with the goal to realize the devices, which include sensors, antennas, energy harvesters and advanced textiles for self-cooling and heating. The area of textile electrodes and e-textile is perceived as a multidisciplinary field, integrating material engineering, chemistry, and biomedical engineering. In this review, we provide a comprehensive view on this area. This multidisciplinary review integrates the e-textile characteristics, materials and manufacturing of the textile electrodes, noise influence on the e-textiles performance, and mainly applications of the textile electrodes for biomedical signal monitoring and acquisition, including pressure sensors, electrocardiography, electromyography, electroencephalography and electrooculography monitoring.

Published

2022

5. Analysis and Testing of a Suitable Compatible Electrode's Material for Continuous Measurement of Glucose Concentration.

Author

Slaninova N, Fiedorova K, Selamat A, Danisova K, Kubicek J, Tkacz E, and Augustynek M

Subjects

Gold, Biosensing Techniques, Electrochemical Techniques, Electrodes, Glucose analysis, Glucose Oxidase

Abstract

The subject of the submitted work is the proposal of electrodes for the continual measurement of the glucose concentration for the purpose of specifying further hemodynamic parameters. The proposal includes the design of the electronic measuring system, the construction of the electrodes themselves and the functionality of the entire system, verified experimentally using various electrode materials. The proposed circuit works on the basis of micro-ammeter measuring the size of the flowing electric current and the electrochemical measurement method is used for specifying the glucose concentration. The electrode system is comprised of two electrodes embedded in a silicon tube. The solution consists of the measurement with three types of materials, which are verified by using three solutions with a precisely given concentration of glucose in the form of a mixed solution and enzyme glucose oxidase. For the testing of the proposed circuit and the selection of a suitable material, the testing did not take place on measurements in whole blood. For the construction of the electrodes, the three most frequently used materials for the construction of electrodes used in clinical practice for sensing biopotentials, specifically the materials Ag/AgCl, Cu and Au, were used. The performed experiments showed that the material Ag/AgCl, which had the greatest sensitivity for the measurement even without the enzyme, was the most suitable material for the electrode. This conclusion is supported by the performed statistical analysis. On the basis of the testing, we can come to the conclusion that even if the Ag/AgCl electrode appears to be the most suitable, showing high stability, gold-plated electrodes showed stability throughout the measurement similarly to Ag/AgCl electrodes, but did not achieve the same qualities in sensitivity and readability of the measured results.

Published

2020

6. Wavelet-Based Filtration Procedure for Denoising the Predicted CO 2 Waveforms in Smart Home within the Internet of Things.

Author

Vanus J, Fiedorova K, Kubicek J, Gorjani OM, and Augustynek M

Abstract

The operating cost minimization of smart homes can be achieved with the optimization of the management of the building's technical functions by determination of the current occupancy status of the individual monitored spaces of a smart home. To respect the privacy of the smart home residents, indirect methods (without using cameras and microphones) are possible for occupancy recognition of space in smart homes. This article describes a newly proposed indirect method to increase the accuracy of the occupancy recognition of monitored spaces of smart homes. The proposed procedure uses the prediction of the course of CO 2 concentration from operationally measured quantities (temperature indoor and relative humidity indoor) using artificial neural networks with a multilayer perceptron algorithm. The mathematical wavelet transformation method is used for additive noise canceling from the predicted course of the CO 2 concentration signal with an objective increase accuracy of the prediction. The calculated accuracy of CO 2 concentration waveform prediction in the additive noise-canceling application was higher than 98% in selected experiments., Competing Interests: The funders had no role in the design of the study; in the collection, analyses, or interpretation of data; in the writing of the manuscript, or in the decision to publish the results.

Published

2020