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Virus eradication method by cryopreservation tool - a cryoknife
Bilavčík, A. ; Bobrova, O. ; Faltus, M. ; Fránová, Jana ; Hammond, S. ; Koloniuk, Igor ; Zámečník, J.
Currently, in the nursery production of plant material, emphasis is placed on the propagation of healthy material. For this reason, it is necessary to pay attention to the topic of healthy virus-free nuclear stock when preserving collections of genetic resources of vegetatively propagated plants. Some raspberry viruses are difficult to remove from the plant host by existing methods of thermotherapy or chemotherapy. That is why, using the example of black raspberry necrosis virus (BRNV), a comprehensive methodology for testing health status and cryotherapy in raspberry was developed. The resulting methodical procedure makes it possible to eradicate BRNV from raspberry using cryotherapy of in vitro cultures. The user of the methodology is the Ministry of Agriculture, which applies it as part of the 'National Program for the Conservation and Use of Genetic Resources of Plants, Animals and Microorganisms Important for Nutrition and Agriculture'.
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Deposition of inhaled particles in a model of child lungs
Čederle, Jakub ; Pokorný, Jan (referee) ; Lízal, František (advisor)
This thesis presents a summary of research of deposition of inhaled particles in children’s respiratory system which was mainly conducted on realistic model of children's lungs. Experimental part introduces BUT model representing airways of 5-years-old child which served for measurements of regional deposition. Bachelor's thesis furthermore sums up basic knowledge of respiratory system and points out anatomical and physiological differences between children and adults in given field. There are described basic deposition mechanisms and their impact on aerosol therapy as well.
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Construction and evaluation of in vitro set of holes for chondrogenic differentiation of MSC cells
Kříž, Marek ; Sekora, Jiří (referee) ; Čmiel, Vratislav (advisor)
Bachelor thesis concentrates on the cultivation of mesenchymal cells in vitro, damage to the articular cartilage and its replacement with the chondrogenic cells. The next section is devoted to each type of temperature control for heating and maintaining the temperature inside a closed system, the type of detector temperature and heating using the Peltier element. Assembly heater box, measuring the temperature profile inside the box with Labview program, control with Arduino platform, survival and differentiation of cells.
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Sun protection factors determination for cosmetic emulsions
Slechanová, Veronika ; Jugl, Adam (referee) ; Smilek, Jiří (advisor)
The bachelor thesis deals with the anatomy and physiology of the skin, ultraviolet rays, sunscreens and current methods used to measure the value of sun protection factor. One of the goals of the thesis is to get the overview of the UV filters currently widely used in cosmetic products and giving them the required protection against the sun. The obtained knowledge was subsequently used for the determination of the sun protection factors in selected sunscreens by in vitro methods. The measurement provided satisfying results comparable with the values given on the label of the tested products. However, it is still necessary to optimize the methodology even more in order to obtain data with lower deviations and especially with much higher reproducibility.
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Properties and in vitro Degradation of Metalic Biodegradable Materials
Ročňáková, Ivana ; Trojanová, Zuzanka (referee) ; Vojtěch,, Dalibor (referee) ; Podrábský, Tomáš (advisor)
Biodegradable metallic materials for medical applications have received considerable attention in recent years. The main reason is that they provide high potential for fabrication of temporal orthopedic implants such as bone fixation devices. Magnesium is an excellent candidate for fabrication of biodegradable implants due to its biocompatibility, mechanical properties similar to human bone and relevance for biological body functions. The fast degradation rate of magnesium and its biodegradable alloys in physiological environment limits its clinical application. Another attractive material in the field of biodegradable materials is zinc, which is among the essential elements in human body. Zinc exhibits an excellent corrosion resistance, and inferior biocompatibility compared to with magnesium. Hence, surface modification to form a hard, dense/porous, biocompatible and corrosion resistant modified layer has become an interesting topic in magnesium base biomaterials. Since hydroxyapatite is well tolerated by living organisms and in addition, improves the bone growth, it appears to be excellent candidate for such coatings on surface of biodegradable materials (e.g. Mg, Zn). This thesis is focused on comparison of corrosion behavior of pure non ferrous metals (Mg, Zn) and metals coated with hydroxyapatite, in simulated body fluids. The present approach is the use of modified atmospheric plasma spray technology to produce the hydroxyapatite coatings – suspension spraying. Composition and structure of the coatings and corrosion products were studied by light microscopy, scanning electron microscopy equipped with energy dispersive microanalyzer and X-ray diffraction. Corrosion of Mg and Zn samples was monitored by weight loss and determined by X ray and micro-tomography. The application of the HA coating resulted in decrease of corrosion rate of pure Mg. The corrosion rate of coated Mg samples was lower by 27,3 % in comparison with the corrosion rate of pure non coated Mg. Corrosion degradation of uncoated and coated Zn samples was minimal. The aplication of HA on the non ferrous surface appears to be a very promising method to improve corrosion and biological properties of these biodegradable materials.
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Construction and evaluation of in vitro set of holes for chondrogenic differentiation of MSC cells
Kříž, Marek ; Sekora, Jiří (referee) ; Čmiel, Vratislav (advisor)
Bachelor thesis concentrates on the cultivation of mesenchymal cells in vitro, damage to the articular cartilage and its replacement with the chondrogenic cells. The next section is devoted to each type of temperature control for heating and maintaining the temperature inside a closed system, the type of detector temperature and heating using the Peltier element. Assembly heater box, measuring the temperature profile inside the box with Labview program, control with Arduino platform, survival and differentiation of cells.
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Tolerance Pavlownia tomentosa in vitro k suchu a osmotické zátěži
Zapalač, Radek
This diploma thesis deals with the influence of abiotic stressors on plant growth and their acclimation responses. An in vitro culture experiment was conducted with Paulownia tomentosa plants for 35 days, in which growth parameters (reduction of leaf turgescence, leaf damage, plant height, number of nodes per stem, number of leaves and number of roots) and plant survival, under the treatment of three different osmotics at different concentrations in the medium (20 g/l sucrose – control, 80 g/l sucrose, 50 mM NaCl, 100 mM NaCl, 1.5 % PEG6000, 3 % PEG6000). On days 10 and 30 of the experiment, plant samples were collected for determination of ABA and proline content in leaves. The radioimmunoassay method was used to determine ABA content, while proline content was determined by spectrophotometric measurement. During the first ten days of cultivation, gas samples were also taken from the culture vessels to determine ethylene production, which was subsequently carried out by gas chromatography. The results obtained were statistically and graphically processed and supplemented by photodocumentation.
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Stanovení in vitro stravitelnosti sušiny a organické hmoty směsných krmných dávek s rozdílným zastoupením krmných surovin
Ursová, Lucie
The aim of this thesis was evaluvation of the digestibility of dry matter and organic matter by in vitro method in total mixed ration (TMR) with different representation of components. The gastrointestinal tract of ruminants with all its physiological requirements is described in the literary review. Furthermore, attention was paid to factors affecting the digestibility of feed and subsequent methods for determination of digestibility. The literary review was also focused on the characteristics and structure of TMR. TMR analyzes were determined by chemical methods and subsequently statistically evaluated in Excel and Statistica. The analysis took into account the chemical analysis, nutritional value and concentration of macroelements and microelements. 8 TMRs with different proportions of components were selected for analyzes, of which 6 were assembled for the peak of lactation, one for early lactation and one for the end of lacta-tion. All TMRs are designed for dairy cows with production capacity of over 9,000 l of milk.
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Study of differential potential of germ stem cells in vitro in higher vertebrates
Smolík, Ondřej ; Krylov, Vladimír (advisor) ; Krulová, Magdaléna (referee)
Spermatogonial stem cells are unipotent male germ cells which provide spermatogenesis during the whole life. In 2004, an important experiment was conducted. During in vitro cultivation mouse spermatogonial stem cells gained the characteristics of embryonic stem cells, pluripotency by all means. Those cells had the feature to spontaneously differentiate into all three germ layers, endoderm, ectoderm and mesoderm. They also could pass its genetic information to the next generation and they could give rise to teratomas. By this event, experiments started on other vertebrates including rodents, domestic animals and also human. Differentiation of these cells can be directed in vitro to generate specific cell types. On base of these facts, spermatogonial stem cells are alternative source of pluripotent cells which possess many applications in life sciences. The purpose of this thesis is to summarize actual knowledge about differentiation potential in vitro of spermatogonial stem cells in higher vertebrates and try to identify tendencies which they prefer during differentiation, if they exist. Powered by TCPDF (www.tcpdf.org)
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Endocrine-disruptive effects of bisphenol A and other representatives of bisphenols
Kromková, Lucia ; Cajthaml, Tomáš (advisor) ; Vítků, Jana (referee)
Xenoestrogens are substances of anthropogenic origin that disrupt the human endocrine system. This work deals with bisphenol A, a substance found in plastics all around us, and its effect on the human reproductive system. As the toxicity of bisphenol A is gradually being proven, its production is regulated by legislation, and therefore bisphenol A is being replaced by other derivatives. This work focuses only on the 7 most widespread bisphenol derivatives - S, F, E, B, AP and AF. The endocrine-disrupting effect of bisphenols is discussed from carefully selected relevant studies with an emphasis on the last 5 years (2018-2023) and compiled into clear tables. It turns out that bisphenol AP has the least endocrine disruption per organism, while bisphenol AF and bisphenol S have the highest. In in vitro and in vivo studies, bisphenol A has different concentrations that influence disruptiveness, which indicates the interaction of bisphenol A with other factors in the organism. The greatest risk to humanity is the proven cocktail effect of bisphenol A and transgenerational transmission. Key words: endocrine disruptors, xenoestrogens, bisphenol A, in vitro, bisphenol derivatives, in vivo
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