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Low-floor Timber Construction
Vašíčková, Kateřina ; Šafářová, Markéta (referee) ; Lavický, Miloš (advisor)
Bachelor´s thesis process the project documentation of one floor family house with residential attic with built-in garage, without a cellar. The house is projected as a low-floor Timbre construction made out of lightweight wood frame construction system. The big advantages of this house are good heat technical conditions and short time of construction. The project documentation was made for a implementation of construction by computer programme Archicad.
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Influence of ionts on the efficiency of shrinkage reducing admixtures in alkali activated systems
Vašíčková, Kateřina ; Bílek, Vlastimil (referee) ; Kalina, Lukáš (advisor)
Alkali activated materials, especially when activated with waterglass, are subjected to substantial drying shrinkage that hinders their broader industrial application. The effect of shrinkage reducing admixtures (SRA), based on poly(propylene glycol), on drying shrinkage of alkali activated blast furnace slag (BFS) mortars was studied. The aim of this thesis is to determine the efficiency of SRA as well as the influence of different type of alkali activator with varying silicate modulus on drying shrinkage characteristics. It was observed that the high amount of alkalis positively influenced the effect of SRA. The higher the amount of alkalis, the lower the drying shrinkage was. It also caused more water to be incorporated in the alkali activated structure and prevent it from evaporation. Thus, the weight change of such mortars was the lowest. Reduced effect of SRA on mechanical strength properties was observed in mortars with low amount of alkalis which was connected with delayed hydration resulting in insufficient amount of created C-S-H gel. The presented thesis further discussed and underlines the role of different kinds of alkali ions as well as their amount on the properties of alkali activated BFS systems.
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Transport of Biomedical Active Compounds Through Porous Membranes
Vašíčková, Kateřina ; Smilková, Marcela (referee) ; Smilek, Jiří (advisor)
This bachelor thesis deals with a study of transport of biomedical active compounds through porous membranes. The main goal is to optimize a penetration method of micellar solutions with a solubilized dye and subsequently with solubilized drug. Cetyltrimethylammonium bromide is chosen as a surfactant and a nile red dye is used as a diffusion and fluorescence probe. Selected active compound is a nonsteroidal anti-inflammatory drug ketoprofen with analgesic and antipyretic effects. The diffusion processes are realized using Franz diffusion cells with polycarbonate membrane with a 2 µm size of poruses. The samples are withdrawn in a chosen time intervals and afterwards evaluated by a fluorescence correlation spectroscopy. Using this method, it is possible to screen the diffusion in time even in nanomolar concentrations of a fluorescence probe chosen. This thesis provides an overview of nile red behaviour in the micellar solutions of surfactant during diffusion processes. The experiment can be extended using an active compound, for instance using a ketoprofen as it is mentioned above.
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Využití nanomateriálů pro zvýšení biodostupnosti doplňků stravy
Vašíčková, Kateřina
Bachelor thesis with the name Application of nanomaterials for enhancement of food supplements bioavailability deals with the effect of selected food supplements on human organism and the use of nanocarriers to improve their biological availability for organism. Literary part of this work is focused on the evaluation of problems of bioavailability of active food components. Then, the benefits and risks of taking food supplements are discussed, including model dietary supplements such as ascorbic and folic acids. The practical part of this work serves to evaluate the long-term stability of complex formed by protein nanocarrier (based on natural iron-storage protein apoferritin) with encapsulated molecules in various light conditions (ambient light, dark), temperatures (-20; 4; 20 and 37 C) and solvents (ACS water, PBS). Stability of this complex, the amount of prematurely released molecules and the size and shape of the nanocarrier were detected using absorbance and fluorescence of the encapsulated fluorescent tag, dynamic light scattering and transmission electron microscopy. The optimal storage conditions were dark, temperature of 4 C and ACS water as a solvent. Moreover, the capability of apoferritin to bind food supplements to apoferritin was researched. Different concentrations of ascorbic acid (615; 308; 154; 77 a 38 ug/ml) were successfully encapsulated to apoferritin when 39 % of all applied molecules were encapsulated. Folic acid was bonded on the surface of apoferritin in five different concentrations (200; 100; 50; 25 a 13 uM) using zero-length linker with 61 % efficiency. Finally, the stable complex of apoferritin with folic acid was applied to cellular line of neuroblastom UKF-NB4. It was discovered that higher concentration of encapsulated folic acid increased the amount of its internalization to cells. Therefore, the increase in bioavailability of folic acid and encapsulated molecules via nanocarriers was proved. The results of this work prove that the use of nanomaterials is applicable to food sector and at the same time can serve to improve the bioavailability of active substances during taking of dietary supplements.
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Využití funkčních potravin v terapii nádorových onemocnění
Vašíčková, Kateřina
This diploma thesis with the name „Use of Functional Food in Cancer Therapy“ is focused on the study of the possibility of using nutraceuticals of functional food in cancer therapy. Literary part of this work deals with the topic of functional food and their positive effects on human body, especially in prevention and treatment of various type of diseases. One of the main topic is cancer and its treatment options. These days, research using nutraceuticals as a supplementary treatment or monotherapy modality of cancer is often the subject of research. In this work, the effect of nutraceutical curcumin, whose antitumor effects were tested in vitro in both monotherapy and supplementary breast cancer treatment, were investigated. As a supplementary treatment, curcumin was tested in synergy with the cytostatic doxorubicin. Biologically active molecules have been encapsulated into a cavity of protein nanocarrier apoferritin, which has been promoted to support molecule´s therapeutic effects while protecting non-transformed breast cells. The encapsulation efficiency was about 68–72 % for all applied molecules. Stability of encapsulated curcumin and doxorubicin complexes stored in aqueous medium at 4 °C and 20 °C for 48 hours was determined by monitoring the change in optical properties, the size and surface ζ-potential of the nanoparticles or premature drug release from the nanotransporter. In addition, a colloidal stability test have been confirmed the increased protection of biologically active molecules by the process of direct encapsulation. In solutions simulating the internal environment of the organism (blood plasma, cytoplasm, endosomes), the amount of the released molecules from the apoferritin cavity was monitored at 37 °C for 48 hours. The colloidal stability test determined the blood plasma behavior for 48 hours. The toxicity of the tested complexes against the tumor cell lines MDA-MB-231 and MDA-MB-468 was determined by several cell experiments. The HBL-100 cell line was consider as a control non-transformed cells. The research of this diploma thesis determined the oxidative stress of cell lines induced by prepared com-plexes and the rate of internalization of these formulations into cells. Biocompatibility was determined by monitoring protein corona formation on the surface of nanoparticles, activation of C3 complement component, genotoxic effects on healthy breast cell lines and hemolysis of erythrocytes in human blood.
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Influence of ionts on the efficiency of shrinkage reducing admixtures in alkali activated systems
Vašíčková, Kateřina ; Bílek, Vlastimil (referee) ; Kalina, Lukáš (advisor)
Alkali activated materials, especially when activated with waterglass, are subjected to substantial drying shrinkage that hinders their broader industrial application. The effect of shrinkage reducing admixtures (SRA), based on poly(propylene glycol), on drying shrinkage of alkali activated blast furnace slag (BFS) mortars was studied. The aim of this thesis is to determine the efficiency of SRA as well as the influence of different type of alkali activator with varying silicate modulus on drying shrinkage characteristics. It was observed that the high amount of alkalis positively influenced the effect of SRA. The higher the amount of alkalis, the lower the drying shrinkage was. It also caused more water to be incorporated in the alkali activated structure and prevent it from evaporation. Thus, the weight change of such mortars was the lowest. Reduced effect of SRA on mechanical strength properties was observed in mortars with low amount of alkalis which was connected with delayed hydration resulting in insufficient amount of created C-S-H gel. The presented thesis further discussed and underlines the role of different kinds of alkali ions as well as their amount on the properties of alkali activated BFS systems.
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Municipal Authority Building
Vašíčková, Kateřina ; Havířová, Zdeňka (referee) ; Lavický, Miloš (advisor)
This diploma thesis process design documentation of municipal authority building in Ivanovice na Háné, near Vyškov. The building is designed as two-floor free standing house, without basement on flat terrain, not surrounded by any objects. Floor plan is irregular, the height of building is different in some parts. The building has three provisionally parts, the municipal authority building, technical services and library. The construction system consists of full-wall wood panels Novatop. Project documentation was processed for realization building in computer program Archicad.
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Transport of Biomedical Active Compounds Through Porous Membranes
Vašíčková, Kateřina ; Smilková, Marcela (referee) ; Smilek, Jiří (advisor)
This bachelor thesis deals with a study of transport of biomedical active compounds through porous membranes. The main goal is to optimize a penetration method of micellar solutions with a solubilized dye and subsequently with solubilized drug. Cetyltrimethylammonium bromide is chosen as a surfactant and a nile red dye is used as a diffusion and fluorescence probe. Selected active compound is a nonsteroidal anti-inflammatory drug ketoprofen with analgesic and antipyretic effects. The diffusion processes are realized using Franz diffusion cells with polycarbonate membrane with a 2 µm size of poruses. The samples are withdrawn in a chosen time intervals and afterwards evaluated by a fluorescence correlation spectroscopy. Using this method, it is possible to screen the diffusion in time even in nanomolar concentrations of a fluorescence probe chosen. This thesis provides an overview of nile red behaviour in the micellar solutions of surfactant during diffusion processes. The experiment can be extended using an active compound, for instance using a ketoprofen as it is mentioned above.
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Low-floor Timber Construction
Vašíčková, Kateřina ; Šafářová, Markéta (referee) ; Lavický, Miloš (advisor)
Bachelor´s thesis process the project documentation of one floor family house with residential attic with built-in garage, without a cellar. The house is projected as a low-floor Timbre construction made out of lightweight wood frame construction system. The big advantages of this house are good heat technical conditions and short time of construction. The project documentation was made for a implementation of construction by computer programme Archicad.
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